Phonetics Sensaphone ISACC 5000 User's Manual
Contents
1. 0 000 0 0 O O O O O O O O O O O O 0 O O0 0 0 0 0 0 O0 0 0 0 O SO IVNV SLOAdLNO IVLIOIG 9 10 ON OFF One 4 module rack mounted to steel panel P11 SACC circuit board 135 Sensaphone ISACC Instruction Manual lt Steel back plate 9 2 E L S E 9 E lt 8 module rack 1 O 0 1 2 3 4 5 6 7 O O 210 8 ISACC circuit board ANTAN SLOAdLNO OTUNW SL dlLlnO IVLIOIG See eee ee P ERE ji One 8 module rack mounted to steel panel 136 Appendix Mounting I O Devices J ON OFF 9197 9 9197 9 0797 9 0797 9 9 lo Oo A ok o2. 15 UNPACKING L4 ap vek k aove Soso SSeS tasa ta qe ve RA sa ew 15 GROUNDING WRIST STRAP He voncsuncnaiucaenibacsuvssvnusasetuaseascasaveusanees 15 OPERATING ENVIRONMENT ssuueemheeeeeeeeeee neee Heeeeee cene He 15 248181 ER LLEN S7 0 Srt 15 POWERING ISACCO s da eb sev e eoi aar 16 AC SUPPLY REQUIREMENTS 16 SUPPLY CONNECTIONS sssrcssereeeese eee ta PR Aye na Dr e TRE v UE ETUDES EC VR 16 DC SUPPLY REQUIREMENTS eorura e yeka kela se sosro sene n evna ui e anek o e 17 DC SUPPLY CONNECTIONS ti dan cda eV oio Ve ken ey n ewe ek russe ane ee REW Ne de wesa 17 e elELIDIL CELA S ap EYE kre H na EW EKE ku se U Se AA O VE HER n eya SU RR Re VEY E 18 Enim deg NIS 18 LITHIUM BATTERY ER 18 TURNING ISACC ON a kune Wan ehe ten to o VIP s u ewk r ke le xwen aie kek 19 RESET BUTTON Me 19 BUZZER EA T A A T 19 Sensaphone ISACC Instruction Manual PHONE EINE INSTALLATION 19 FCC REQUIREMENTS seras SENA DE Qo suas eU o Sa ERO 20 CANADIAN DEPARTMENT OF COMMUNIC
3. input Mounting hole 9r Card edge connector Ribbon cable 16 module rack connection 39 Sensaphone ISACC Instruction Manual ISACC INPUT SPECIFICATIONS Voltage Range Minimum Maximum Input Voltage Input Resolution A D Converter Typical Total Unadjusted Error Accuracy TEMP POSITION Accuracy 4 20mA POSITION Maximum Pulse Frequency Minumum Pulse Width Noise Filtering 0 to t5 VDC 0 5VDC to 5 5VDC 10 Bit or 0 004888V 1 LSB 1 F typical using Phonetics 2 8K temperature sensor 1 25 1 0Hz 400ms 2300Hz low pass filter 20dB Decade INPUT MODULE SPECIFICATIONS AC INPUT MODULE FGD 0018 Input Voltage Input Current Output Current Output Leakage Logic Supply Voltage Logic Supply Current 90 140 VAC VDC 8 12mA 100 mA DC max 100 WA DC max 5VDC 10 mA DC typical DC INPUT MODULE FGD 0017 Input Voltage Input Current Output Current Output Leakage Logic Supply Logic Supply Current 40 3 32 VDC 10 15 mA 100 mA DC 100 DC 5VDC 10 mA DC Chapter 5 Outputs CHAPTER 5 OUTPUTS ISACC comes with 8 digital outputs one mechanical relay one on board buzzer and four analog outputs NOTE All wiring should comply with section 17 of the UL requirements HOW THE OUTPUTS WORK On board buzzer is considered an output that acts as a local audible indicator Its func tion is
4. ISACC gt show dialout DIALOUT ENABLING 1 LOW WELL FLOAT Yes INO2 HI SUMP FLOAT Yeg 1403 Input 3 Yes INO4 FLOW RATE GPM Yes INO5 WELL LEVEL FT Yes INO6 RESET Yes 1407 Input 7 Yes 1408 VOLTAGE Yes 1409 Input 9 Yes 1410 Input 10 Yes IN11 Input 11 Yes 1412 Input 12 Yes 1413 Input 13 Yes IN14 Input 14 Yes 1415 Input 15 Yes 1416 Input 16 Yes To program dialout an input type set dialout after ISACC prompt To enable input for dialout type Y after prompt To disable the input for dialout type N at the prompt You may also program the dialout for a specific input by typing set dialout followed by the input number ISACC set dialout DIALOUT ENABLING 1 LOW WELL FLOAT Yes Y or N INO2 HI SUMP FLOAT Yes 1403 Input 3 Yes Y or N gt N INO4 FLOW RATE GPM Yes Y or N gt INO5 WELL LEVEL FT Yes Y or N gt INO6 RESET Yes 1407 Input 7 Yes Y N gt N 1408 VOLTAGE Yes Y or N gt INO9 Input 9 Yes Y or N gt N 62 IN10 Input 10 IN11 Input 11 11412 Input 12 11413 Input 13 11414 Input 14 IN15 Input 15 IN16 Input 16 OUTPUTS Yes Yes Yes Yes Yes Yes Yes QT or or or OF or or P Y 23 2
5. M Otto 0 0 00000 To change the dialing selection each phone number type set selection after an ISACC prompt Enter 1 to enable or 0 zero to disable the alarm dialing for the corresponding phone number and input Press the spacebar to advance to the next entry Press ENTER to jump to the next phone number You may also program the selection of a specific phone number by typing set selection followed by the entry number 01 08 ISACC gt set selection DIALOUT ALARM SELECTION Input source 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 1 Engineer Beeper Het 12 0 0 0 1 0 1 0 0 O PHO2 DIF phone 21 10 0 0 1 0 2 0 0 PHO3 Office 2d 1 0 0 O0 1 O0 1 O0 O 0 O0 O0 O 0 4 Manager 20 0 1 1 I O lI O 1 Li 1 1I 1 1 Il 4 PHO5 M Weaver Wes Q Ii 1 1 0 1 0 1 LoL 1 1 i 1 1 J Hogan 0 O 11 0 I O I l l1 1 i i 1 1 7 A Daniels o d d 1 0 1 Ii I I 1 i 1l i M Otto 0 0 L1 2 1 O0 l1 O0 2 i1 I i i i 67 Sensaphone ISACC Instruction Manual VOICE This keyword command allows you to select the input and output status information to be recited when you call into the unit for a status report using a standard telephone To display the information to be recited during a voice status report type show voice after an ISACC prompt ISACC gt show voice VOICE STATUS SELECTION 101
6. To wire an AC device to the 8 module rack using external AC power source 1 Wire the HOT terminal on the external AC power source to an even numbered terminal on the 8 module rack 2 Wire the NEUTRAL terminal on the external power source to one of the AC device terminals 3 Wire the other AC device terminal to an odd numbered terminal on the 8 module rack 4 When using more than one AC device you may wire the even numbered terminals on the rack together and wire the neutral terminals on the AC devices together See diagram below gt C amp e OO DC output DC output DC output Ow DC output AC output Qo AC output On AC output Or AC output 22 T AC device Mn 210 8 e bl te DC device vZ OF 20 1 Y DC device AS AZT OC P d AC device dd 2 7 ccu E zu see AC device Pd AC external power supply NEUTRAL HOT SSISISSISSISISSISSEIS Wiring the AC and DC devices to the 8 module rack Be
7. 32 Chapter 4 Inputs CHAPTER 4 INPUTS ISACC comes with 16 user definable inputs that can sense the following temperature analog voltage analog current dry contact and pulse count HOW THE INPUTS WORK ISACC reads the value of each input by measuring the voltage across the input terminal and common ISACC can read the voltage between 0 Volts and 5 Volts in increments of 00489 Volts The inputs are configured by positioning the shunts at location P12 on the ISACC circuit board P12 is located under the acrylic safety panel directly above the input terminal block Refer to Appendix B for a diagram of the ISACC board layout P12 has 16 sets of pins one set for each input See diagram of P12 below P12 e o o o o o o o o o o o Oo 4 20m e e e e o eo o o e o9 Oo Oo TEMP The input configuration pins at P12 When the shunts are positioned for a specific type of sensor ISACC uses a different circuit to measure the appropriate reading for that sensor The three configurations are single ended 4 20mA thermistor digital pulse and 0 5V To configure an input channel you must first 33 Sensaphone ISACC Instruction Manual remove the acrylic panel Using needlenose pliers move the shunt to the appropriate position See diagrams below Replace the acrylic panel when finished TEMP position The default configuration connects the input signal to a 5V reference through a 6 34K pull up resistor Th
8. D ee ve DM na Mia 61 MED M E MM UE 62 ecco tua st ctu Du I LE ME aet 62 OUTPUTS ctus a Uere DD d 63 t Rau Cal Mice e ML UN Ue Da 64 S etx uunc At e E Ei AL LER MN M EE 65 SELECTION mee R DA M sU E Ae ON a EL 67 NOICE sc ule nc ca EM M EE 68 LOGGING I E LE LU E E ED CM IL LUE 69 NETWORK teste cette tt cech e e ke ECL ek ta ka dE 70 VARIABLES DR EA LLLI ML UM 71 STAND ALONE COMMANDS cecinere petri nenn Hana nb beau HHHH dis 72 EE a TE LM UM E 72 G N cese of e E E MM EDENDI 72 PATCH e Ade LL LM MAE MED VA ANN te RE EU 73 e lU LU D LE tC Ea ides 73 cM CD Md E ad CE E UK Ed uude 74 DATA ceste cucine C D pL M DH HER SE SAN 74 me 74 rici Ce EVE ke Ke an Wa SEWE ne Cika ne Pe d VE xen rk ka 75 CHAPTER 8 C PROGRAMMING 77 xa kek LLL LL De eee a ekere seke ea 77 ABOUT THE C LANGUAGE nan KAK E OR 77 STRUCTURE wan KA
9. ISACC gt show inputs INPUT NAME 1401 Input 1 INO2 Input 2 1403 Input 3 1404 Input 4 INO5 Input 5 INO6 Input 6 INO7 Input 7 INO8 Input 8 INO9 Input 9 IN10 Input 10 IN11 Input 11 IN12 Input 12 IN13 Input 13 IN14 Input 14 IN15 Input 15 IN16 Input 16 ITYPE VALUE Open Open Open Open Open Open Open Open Open Open Open Open Open Open Open Open STATUS OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK LOW LIMIT HIGH LIMIT MIN MAX This command allows you to program the input type for each of the 16 inputs and assign a descriptive name NOTE The input type programmed must correspond with the shunt configuration on the ISACC circuit board See Chapter 4 Inputs The input types are 00 Digital 01 Digital 02 Digital 03 Analog 04 Analog 05 Analog 06 Analog Normally Closed Normally Open Pulse Count 4 20mA 0 5 Volts 2 8K F 2 8K 07 Analog 08 Analog 09 Analog 10 Analog 11 Analog 12 Analog 13 User D 10K F LOK C Table Table Table Table efined Input type 13 User defined The value for input defined as type 13 is not received from physical input but is generated from a C program See SET_INPUT Chapter 8 To display the current input type and name type show itype after an ISACC prompt You may also display a specific itype by typing show itype followed by the nu
10. Programming 3 This program simply does not do what should int x main x input 5 if x 10 output 9 1 else output 9 0 The problem is that the statement if x 10 actually assigns the value of 10 to x The key is that it uses a single equals sign To test a condition use the double equals sign See below int x main x input 5 if x 10 output 9 1 else output 9 0 Notice the 113 Sensaphone ISACC Instruction Manual 114 Chapter 9 Operation CHAPTER 9 OPERATION HOW THE UNIT WORKS ISACC monitors up to 16 universal inputs When the status of an input changes or exceeds user programmed limits it causes an alarm If the alarm condition lasts long enough to meet its programmed recognition time ISACC will consider the alarm valid and begin a dialout to the programmed telephone numbers from a list associated with that particular alarm condition ISACC can dial out to a standard touch tone or pulse telephone VOICE mode to a PC or terminal DATA mode or to a beeper The unit will continue dialing telephone numbers in succession until a positive acknowledgment is received NOTE ISACC will not dial out if you are online with the unit locally through the RS232 port ALARM DIALOUT VOICE MODE When dialing to a standard telephone ISACC recites an alarm message in voice synthesized English to identify the input in alar
11. SET OUTPUTS PATCH CLOCK HELP SYSTEM RESET ITYPE CLEAR ONAME LIST LIMITS INSERT PHONE DELETE ALARMS ERASE RECOGNITION COMPILE NETWORK START SELECTION STOP TABLE RUN VARIABLES DATA DIALOUT 123 LOGGING DIAG VOICE EXIT 73 Sensaphone ISACC Instruction Manual EXIT This command logs you off from an online data programming or status inquiry session with ISACC If you do not log off the unit cannot communicate until the online timeout expires It will block alarm dialout To log off ISACC type exit after an ISACC prompt ISACC gt exit DATA This command displays input values from data log records for all or specified inputs There are three parts to the DATA command The first is the command itself The second indicates how many of the 16 inputs you want to display records for The third indicates how many records you want to display Note If you request the records for all 16 inputs the values may wrap to the next line depending on the width of your text line The following example requests the last 10 records for inputs 1 through 9 ISACC gt data 9 16 12 17 93 10 02 24 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 03 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 05 24 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 06 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 08 24 0001 0001 0001 0798 2300 0001 0001 0794 000
12. 1200 bps when you are communi cating locally Use the rate at which your terminal can communicate ISACC factory configured at 9600 bps which is the fastest it can communicate Most terminals can communicate at least that fast Unless your terminal definitely communicates at a slower speed do not change the configuration of the shunts for local communication 27 Sensaphone ISACC Instruction Manual ISACC is capable of communicating locally at the following speeds 150 bps 2400 bps 300 bps 4800 bps 1200 bps 9600 bps There are 9 pins at location P10 P10 is located under the acrylic safety panel next to the digital outputs terminal block Three shunts are provided to configure the communication speed for the RS232 port The speed is determined by the different positions of the shunts All three shunts must be used for ISACC to communicate properly To configure the shunts you must first remove the acrylic panel Using needlenose pliers move the shunts to the appropriate positions Replace the acrylic panel when finished See diagrams below To configure P10 for 150 bps the shunts must be OFF OFF OFF P1 0 1 2 3 ON OFF Shunt configuration for 150 bps To configure P10 for 300 bps the shunts must ON OFF OFF P10 e e e e e e ON OFF Shunt configuration for 300 bps To configure P10 for 120
13. 54 Chapter 7 Programming Online time out When you are online with ISACC locally or remotely the unit looks for inactivity This parameter allows you to set the amount of time 1 255 minutes that ISACC will wait during inactivity before it terminates the online session the default is 4 minutes If there is inactivity that meets this parameter ISACC will disconnect and display the message TIME OUT on your screen Acknowledge on carrier When ISACC dials out in data mode the unit will wait to receive a carrier signal from a modem This tells ISACC that a telephone connection has been made The acknowledge on carrier parameter allows you to program ISACC to self acknowl edge an alarm when it receives the carrier signal To acknowledge on carrier type Y for yes If you do not want ISACC to acknowledge on carrier type for no The default is Yes When used with the SHOW command the SYSTEM keyword also displays the following information in addition to the current values of the above parameters Alarm acknowledgment status This parameter tells you if any alarms exist and if so whether they have been acknowledged or not To see which inputs are in alarm type SHOW ALARMS C program run status This parameter will indicate if there is a C program running or not Data log status This line will indicate if the data logger is currently running Current temperature ISACC has a temperature sensor on its circuit board This paramet
14. ISACC Instruction Manual COMMON ISACC PROGRAMMING ERRORS As you develop ISACC programs you may find that your programs do not work as you in tended The following programs show common programming errors 1 Program does not turn on the buzzer main output 9 1 Usually this is because the output needs to be set on AUTO Use keyword command SET OUTPUT 9 and set it for AUTO in the standard programming parameters 2 The following program causes ISACC to continue calling out for power outage even after the alarm has been acknowledged main if input 20 0 alarm 1 This is because ALARM function will generate a new alarm regardless of whether it has been acknowledged A flag is needed to determine if there is a new power outage int was_alm main if input 20 0 amp amp was_alm 0 Only if new power outage was_alm 1 alarm 1 if input 20 1 Power back on was_alm 0 Allow alarming If you have unused inputs available a more straight forward method would be to use the SET_INPUT function see Function Library section Assume input 16 is unused First set its ITYPE to USER DEFINED see ITYPE section Then set its HIGH and LOW limits to 120 and 90 respectively Next set the Dialout Selection for this input Finally enter the following program main set_input 16 110 input 20 112 Chapter 8
15. e IPS UR E KK KK H ks aei Uns 43 WIRING THE ANALOG OUTPUTS eeeeh eeeeeeee neee Heve CU CUR D heus ns e eee nca 49 OUTPUT SPECIFICATIONS o RU Men a 49 Dite pe ETEAR 49 ANA LO sisii iis a WENE Fe d EKE 49 a E E EE E EE 49 TEE E EEST A A E 50 SOLID STATE RELAY SPECIFICATIONS esssseeesssseoooeeeessseeeoeeeeeseseeecececeeeessssocoreeesssseccoreeesssse 50 AC OUTPUT MODULE FGD 0015 ssseeseeseessssecoreeesssseeeceeeeeeeeeeeeeeeeeeessssoecoreeesssseoeoreeee 50 DC OUTPUT MODULE FGD 0016 ssesesssesesssssecoceeesssseeeoeeceeeeeseseeceoeeessssoocoreeesssseeeeeeee 50 HIGH POWER SOLID STATE RELAY FGD 0020 ccscssssssssscssssssssssseessssssssssseneeeees 50 CHAPTER 6 POWER SUPPLIES ss scssvssssscnssazeccerciccvavascsttnanuncivsasiivesiecedente 51 vi Table of Contents CHAPTER 7 PROGRAMMING scccssccsscccscccscccscccscccscccesccesccsscceees 53 KEYWORD SS el c E ae elas ee are Oe cao 53 SYSTEM EE UI IER I 54 RN 56 iu D M Bae 56 j IV J SP KOR Am m DIDI E IP D SE 57 TABLE M ec POR CCP EUM 59 LIMITS hei LM A i m E 60 RECOGNITION A
16. k l aeos eo nat koda a eee K 9 ABOUT THE MANUAL En xe ERE RR Eh an SERE SR na uh Ve EK EWE HER SE KU KESA EWEN GERM 9 IMPORTANT welare 10 CHAPTER 2 INSTALLATION reke 11 COMPLETE PACKAGE INSTALLATION FGD 5000 cccsssssssssscscscccsssssssssseessssssssees 11 UNPACKING ISACCO aero r Erro sa 11 GROUNDING WRIST STRAP iiis ents oria ceke ke H e ee cene KAKA H e 11 OPERATING ENVIRONMENT ince eee aoa re obe a Fas P aon rra eee Kesen 12 MOUNTING ISAC qm 12 STRAIN RELIEF 12 i854 4 LEN S7 0 ene 13 ADDITIONAL SURGE ion do enia ean aea arra Y an eren Een Co saben 13 BACKUP BATTERY VE Ee WEKA VERE E SEREN O ESER Ku 35y Wek Va E NR KEK 13 LITHIUM BATTERY kan yasa E PERSMS sesar o 99c Haye SO KO SIGe e 14 TURNING ISACC ON TS 14 RESET BUTTON 0 SEA veye se e aa kesk ew ebe s ke kake i ur ea ses e e 14 BUZZER Q 14 PHONE LINE INSTALLATION uires es ERR tee Coa FN Pu Nace Ua 14 BOARD LEVEL INSTALLATION FGD 5100
17. the array For example The value of x is 6 meaning it is minute 6 incremented in step 4 The value of input 1 for minute 6 will be read into the array and added to the total of the other 5 minutes The value of input 1 at minute 6 is 70 Therefore numbers 6 70 The previous total was say 351 total 351 70 The new total is 421 total 421 104 Chapter 8 Programming 6 When x reaches 60 the For loop is finished and the average is calculated average total 60 7 ISACC automatically rounds numbers down This section of code rounds the value of average up to the next whole number according to the remainder left over during division If the remainder is greater than 30 average is rounded up if total 60 gt 30 average average 1 8 This line sets the value of input 2 to the hourly average just calculated set input 2 average 105 Sensaphone ISACC Instruction Manual ERROR HANDLING When a program is compiled it is scanned for language related errors When an error is encountered the word ERROR 1s displayed followed by the error type and line number The line number may not be the exact line that contains the error Sometimes an error is detected a line or two after the actual mistake If an error occurs while compiling the compiler aborts It is possible to pass the compiler with no errors but receive an error when the program is running A run time error occurs when the s
18. 2 Mount the rack in the ISACC enclosure so that it is parallel to the ISACC circuit board with the LED side closest to the circuit board The LED side is called the logic I O and is wired to ISACC The other side is called the field I O and is wired to the AC and DC devices 3 Wire terminal 1 on the rack to 5VDC on the ISACC digital output terminal block Attach terminal 2 to one of the C common terminals on the ISACC digital output terminal block 4 Connect an odd numbered terminal 3 5 7 or 9 on the rack to a digital output terminal 1 8 on ISACC To wire the 4 module rack field I O to DC devices using ISACC power supply 1 Connect ground from the DC device to a common on ISACC s power supply terminal block 2 Connect an even numbered terminal on the 4 module rack to a power terminal 20V 15V 12V or 5V on ISACC s power supply terminal block 3 Connect the positive terminal from the DC device to the odd num bered terminal 2 4 6 or 8 on the rack 4 If you use more than one DC module you may wire the even num bered terminals on the rack together if they require the same voltage to supply power and the ground terminals on the DC devices together to ground To wire the 4 module rack field 1 to AC devices using an external power supply 1 Wire the HOT terminal from the external power supply to an odd numbered terminal on the 4 module rack 2 Wire the NEUTRAL terminal from the external power supply to a
19. Chapter 7 Programming gt N V MV M M ISACC has 8 digital outputs 1 on board relay 1 on board buzzer 4 analog outputs The outputs can be controlled manually or can be controlled automatically by C program This keyword command allows you to manually turn the output on or off or to set the output to be automatically controlled by C program For the analog outputs you may enter a value from 0 to 255 to manually set the output level or set the output to be controlled automatically by C program To display the output name configuration and status type show outputs after an ISACC prompt You may also display the information for a specific output by typing show outputs followed by the output number ISACC gt show outputs OUTPUTS OUTO1 WATER PUMP RELAY OUTO2 LOW WELL LIGHT OUTO3 HI SUMP LIGHT OUTO4 Output 4 OUTO5 Output 5 OUTO6 Output 6 OUTO7 Output 7 OUTO8 Output 8 OUTO9 On board buzzer OUT10 On board relay OUT11 CONTROL VALVE OUT12 Analog output 2 OUT13 Analog output 3 OUT14 Analog output 4 To program or switch the outputs ISACC gt set outputs OUTPUTS 0 OFF 1 ON A AUTO OUTO1 WATER PUMP RELAY OUTO2 LOW WELL LIGHT OUTO3 HI SUMP LIGHT OUTO4 Output 4 A OUTO5 Output 5 OUTO6 Output 6 OUTO7 Output 7 OUTO8 Output 8 u OUTO9 On board buzzer OUT10 On board relay OU
20. If you are using the ABS plastic enclosure you must remove the top cover to access the circuit board After wiring is completed reinstall the top cover All wiring should be properly fitted through the strain relief clamps Strain relief 15 provided in the ISACC enclosure to prevent wiring from being pulled from the circuit board or damaged while passing through the enclosure To use thread wires through the clamp and clear rubber bushing Position the bushing in the clamp and tighten the screws on either side so that the wiring does not move WIRING SENSORS TO THE INPUTS Dry contact Thermistor Pulse count use a dry contact sensor thermistor or pulse counter on an input wire one lead to the numbered screw of an input terminal and the other lead to the corresponding common screw See diagram below Dry contact sensor Input terminal pair Dry contact Thermistor Pulse count sensor 4 20mA internally powered To use a 4 20mA sensor on an input you must supply power to it You may power a 4 20mA sensor using ISACC s internal power supply or you may wire the sensor to an external power supply NOTE The number of internally powered sensors will affect battery backup time during a power failure To use the internal power supply wire the positive lead from the sensor to ISACC s 15V power supply located on the POWER terminal block Wire the negative lead to a numbered input terminal screw See following diagram 35 Sensaph
21. O O O O0 O O O O EG 24 24 BAT C 20V C 15V C i 5v Outside device Wiring a device to mechanical relay using an ISACC power supply To wire a device to the mechanical relay using an external power source 1 Wire one lead from the device to the terminal marked NO on the relay terminal block 2 Wire the other lead from the device to the NEUTRAL terminal on the external power source 3 Wire the terminal marked COM on the relay terminal block to the HOT terminal on the external power supply See diagram next page 42 Chapter 5 Outputs RELAY HOT NEUTRAL External power source Wiring a device to mechanical relay using an external power source NOTE The NO NC status is only valid while the unit is on Should the unit lose power the relay will invert position WIRING THE DIGITAL OUTPUTS In order to use the digital outputs to control other equipment an appropriate interface 15 required Optically isolated solid state relays provide the optimum interface to be driven by the digital outputs These are preferred because they isolate ISACC from the equipment being switched The two types that can be used with ISACC are Solid state output modules High power solid state relays FGD 0020 If the equipment that needs to be switched requires less than 3 Amps use solid state output modules mounted in a 4 or 8 module rack If the equipment requires more th
22. OUTPUTS and RELAY See diagram below DIGITAL OUTPUTS ANALOG OUTPUTS RELAY s TtT 6 5b 4 amp 4 3 2 1 C12V C 5V ca c 3 cC 20 l1 NC COM NO Output terminal blocks NOTE If you are using the ABS plastic enclosure you must remove the top cover to access the circuit board After wiring is completed reinstall the top cover wiring should be properly fitted through the strain relief clamps Strain relief is provided in the ISACC enclosure to prevent wiring from being pulled from the circuit board or damaged while 41 Sensaphone ISACC Instruction Manual passing through the enclosure To use thread wires through the clamp and clear rubber bushing Position the bushing in the clamp and tighten the screws on either side so that the wiring does not move WIRING THE MECHANICAL RELAY To wire a device to the mechanical relay using an ISACC power supply 1 Wire one lead from the device to the terminal marked NO on the relay terminal block 2 Wire the other lead from the device to a common on ISACC s POWER supply terminal block 3 Wire the terminal marked COM on the relay terminal block to a power terminal 5V 12V 15V or 20V on ISACC s POWER supply terminal block NOTE If the unit powers off the relay will revert to normal condition It is not Latching See diagram below POWER RELAY O O O O O O O O
23. Rings until answer 3 gt 5 Phone dialing 0 pulse l tone 1 gt Time between calls 0 Min 30 Sec New minutes gt New seconds gt Wait time between rounds 5 Min gt 3 Maximum number of calls 3 Voice alarm repetitions 4 On line time out minutes Acknowledge on carrier YES gt gt 4 gt Y or N gt N ISACC has battery backed real time clock that stores the time and date This is separate battery not the 18V battery This KEYWORD will provide the current time and date and the allow you to enter new settings To display the current time and date type show clock after an ISACC prompt ISACC gt show clock The time is 08 47 27 AM The date is 12 15 93 To change the time and or date type set clock after an ISACC prompt Enter the new information after the prompt gt Time must be entered in 24 hour format i e 0 midnight Press ENTER to go to the next parameter ISACC gt set clock The time is 08 48 37 AM The date is 12 15 93 Enter new time hh mm gt 22 00 Enter new date mm dd yy gt 12 17 93 INPUTS ISACC has 16 universal inputs The command SHOW INPUTS will display all 16 inputs with their names values status and limits The command prefix SET is not valid with this keyword Refer to ITYPE LIMITS and RESET to change this information 56 Chapter 7 Programming To display the current input names values and status type show inputs after an ISACC prompt
24. Test the batteries by unplugging the AC power cord and making sure that the Sensaphone continues to function Check the battery voltage with a DC voltmeter at the terminal screws or go online and check it on the System menu to make sure it is at least 13V Reconnect the power supply when finished 4 Test the internal modem by calling the Sensaphone from a computer and logging on 123 Sensaphone ISACC Instruction Manual 124 Appendix Engineering Specifications APPENDIX B ENGINEERING SPECIFICATIONS The Automatic dialer shall be a self contained microprocessor controlled system capable of monitoring and controlling up to 16 alarm channels The system shall be integrated in construction and shall be installed and configured for operation by the user via keyword command programming on a data terminal or PC Charac teristics of Input and Output channels include Universal Input Digital Output Digital Relay Output and Analog Output The system shall have an internally resident compiler to interpret the C program ming language to allow users sophisticated control capabilities C programming shall not be necessary for standard operation of the system Upon detection of any alarm or status change the system shall commence dialing telephone numbers from a list associated with the particular alarm condition s and deliver a voice message identifying and describing the alarm condition s The system shall be cap
25. at least 3 seconds The maximum number of seconds is 255 For example ISACC gt run Run time was 0 760 seconds For this example the recommended reload time is 2 seconds ISACC gt start Reload time seconds 2 gt 2 Program now running The default Reload time is 2 seconds After the program is started ISACC will run the program depending on your programmed Reload time If you want to stop the program enter STOP at a prompt ISACC will display the following ISACC gt stop Program now halted If a Run time error is encountered ISACC will display the following See Error Handling section for description of error number Error error number Whenever a modification is made to your program you should enter STOP If STOP is not entered before recompiling your new program ISACC will stop the program automatically The actual mechanics of working with the C programming within ISACC is fairly simple To edit your program the commands INSERT DELETE and LIST are used To compile and test your program the commands COMPILE and RUN are used When you actually put your program to use or discontinue your program from running the commands START and STOP are used The contents of your C program is what tells ISACC what to do The next section will teach you the basics so that you can program in 85 Sensaphone ISACC Instruction Manual C LANGUAGE KEYWORDS The following is a list of all valid components of the C language withi
26. be placed anywhere within the phone number by typing the letter P upper or lower case The pause takes up one digit and may be used more than once W wait for dial tone This code instructs ISACC to wait until a dial tone is detected on the phone line before it continues dialing This is needed when a second dial tone such as for an outside line is present ISACC automatically waits for the first dial tone If the second dial tone is not detected after 10 seconds ISACC will dial automatically Example 9 W 5555674 B wait for beeper tone This code instructs ISACC to wait for a tone from the beeper company before it sends the remaining digits Example 16105552376 B 123456 wait for a phone to be answered This code instructs ISACC to wait for the phone to stop ringing before it continues sending digits when dialing to a beeper This allows you to essentially force call progress in the middle of the phone dialing when the beeper service does not produce a tone when ready Example 16105554593 A 234567 I send alarm input digits This code is used only when dialing to a beeper After the call is received by the beeper company the code I instructs ISACC to send two digit number s indicating which input s 15 in alarm Example 16025553487 B 1235679 I 66 Chapter 7 Programming POUND OR ASTERISK When dialing to a beeper a pound sign or an asterisk may be used within the phone number When using pulse dialing the
27. bits or 03137V Maximum Total Unadjusted Error 2 LSB Voltage Output Slew Rate 3V us Voltage Output Settling Time 4us Minimum Output Load Resistance V 10V 2K RELAY Type SPDT Rated Load 5A at 120VAC 5A at 30VDC Carry Current 5A 49 Sensaphone ISACC Instruction Manual Maximum Operating Voltage 250VAC 125VDC Maximum Operating Current 5A AC DC Maximum Switching Capacity 1 250VA 150W BUZZER Sound Output 80dB at 30cm Frequency 400Hz 50Hz SOLID STATE RELAY SPECIFICATIONS AC Output Module FGD 0015 Voltage range 24 140 Vrms Max current 3 Arms Min current 20 mArms Typical leakage current 2 mArms at 120 Vrms DC Output Module FGD 0016 Voltage range 5 60 DC Max current DC Min current 20 mA DC Typical leakage 5 mA at 33V DC High Power Solid State Relay FGD 0020 Voltage range 24 140 Vrms Max current 25 Arms Min current 50 mArms Typical leakage 50 7 5 mArms at 140 Vrms Chapter 6 Power Supplies CHAPTER 6 POWER SUPPLIES ISACC has four power supplies available from the PC board They are there to power your external sensors solid state relays or output devices Below are the specifications for these power supplies Maximum Available Current 5V Supply 200mA 12V Supply 200mA 15V Supply 100mA 20V Supply 100mA POWER EG 24 24 BAT C 20V 5V 12V 5V C Power supply terminal block The 5 Volt 12 Volt 15
28. cation modes and their names Recognition Used with set or show to program or display the recognition time for each input Selection Used with set or show to program or display the configuration of the dial out numbers for each input System Used with set or show to program or display ISACC s system parameters Table Used with set or show to program or display the custom look up tables Variables Used to instruct ISACC to display the values derived from the C program Voice Used to display or program the input and output voice choices on a voice call in 122 Appendix A Proper Operation APPENDIX A CHECKING YOUR SENSAPHONE FOR PROPER OPERATION We recommend that you test your Sensaphone weekly to be sure it is functioning properly This will ensure that when a problem arises the Sensaphone will be ready to alert the appro priate personnel There are several tests that can be performed 1 Call the unit and listen to the Status Report This will test the unit s ability to answer the phone and speak a message It will also verify that the inputs are reading properly the alarm conditions are OK the electricity is on and that the batteries are OK 2 Create a test alarm on an input and allow the unit to contact all programmed telephone numbers This will make sure that the Sensaphone is programmed properly It will also prepare personnel to respond appropriately when they receive a call from the Sensaphone 3
29. controlled by programming No wiring required It is referred to as output 9 in the programming parameters It may be controlled manually or automatically by C program Mechanical SPDT Relay used for simple on off switching of up to 5 Amps If your application requires the use of only one output the on board relay may be appropriate It is referred to as output 10 in the programming parameters It may be controlled manually or automatically by C program Digital Outputs used to control equipment such as heating air conditioning ventilation lighting power etc The outputs are low level 5 volt TTL signals capable of sinking or sourc ing about 20mA The logical operation of the outputs is OFF 5 volts and ON 0 volts The digital outputs require an interface such as solid state relays to be used The digital out puts are referred to as outputs 1 8 in the programming parameters They may be controlled manually or automatically by C program Analog Outputs provide proportional control of equipment and do not require an interface to be used The analog outputs are 0 to 10 Volts specified by a number from 0 to 255 They are controlled automatically by C program and are referred to as outputs 11 through 14 in the programming parameters They may be controlled manually or automatically by C program OUTPUT TERMINAL BLOCKS On the circuit board the outputs are available on three different terminal blocks labelled DIGITAL OUTPUTS ANALOG
30. device to the even numbered termi nal 2 4 6 or 8 on the rack If the input device is AC polarity does not matter and either wire can be connected to a terminal pair on the rack See sample diagram below m O O n O O w O O E O Input devices O O O O O 5 O O 210 4 s o Bl 1 9 4 DC input O gt 12 8 to O 0 O 9 1 EP b DC device tO 7 DG input O 6 le 5 AC input O Pine 424 a 3 input o i 422 E AC device o tg AE KER lt Q 8 o 8 Q 4 module rack Solid state modules LED o alco Wiring AC and DC input modules using a 4 module rack DIP CONNECTOR FORA 16 MODULE RACK If you need to use all 16 inputs for monitoring AC or DC voltage you may simplify your wiring by using a 16 module rack Potter amp Brumfield 21016 with 50 pin ribbon cable with a card edge connector on one end and a 50 pin socket connector on the other end The socket connector connects to the ISACC unit and the card edge connector connects to the 38 Chapter 4 Inputs 16 module rack On the ISACC circuit board is a 50 pin DIP c
31. ea ue 78 EDITING COMMANDS erect tne nennen teta thee tote HK ANAK KAKA HKH HHHH AKA K HKH HAH tasa ARE 82 DD ME N N N E ce A te 82 DELETE n MED c 83 ERA SE n AE kre ee M E E 83 Nami ee re SUNNE Mi WI QR Sar m NO NB up N PP 83 STAND ALONE COMMANDS cccscscsssssssssscscssessscscsssccssssssssesessssssscscssssssscsssssesscssessesececes 84 COMPILE s 22 5 Du deal Ls M eA C s ud 84 BUNC ae LL LE M ALL 84 START X STOD fda dace cts Ruso KK 84 C LANGUAGE KEYWORDS 25 2 ete AKAN KHK Abed 86 PREDEFINED VARIABLES cote coe ra Mer ated KAKA KHK KHK KHK KRE 89 MONTH DAY YEAR HOURS MINUTES amp SECONDS sscsscssesssssssssssossscssssssssssscsecsscessessssscsussscens 89 EXISTS JI JN PU ar OP SPRL SOONER 89 FUNCTION LIBRARY wre thr ae E EE 91 ALARM uc Ad MC CR E E inek RE d ra ele MENA e w E 92 BYS V PN YA DEW 92 ENABLE kts eee ee LA e n nA eG tate nae ce chan 93 vii Sensaphone ISACC Instruction Manual APPENDIX A CHECKING YOUR SENSAPHONE FOR PROPER OPERATION APPENDIX B ENGINEERING SPECIFICATIONS APPENDIX BOARD LAYOUT APPENDIX D MOUNTING I O
32. electrical supply houses They can provide a device to monitor virtually any condition that might be required for your business industrial or residential needs Contact Phonetics Inc at 610 558 2700 for more information ACCESSORIES available through Phonetics MODEL NUMBER Magnetic Reed Switch FGD 0006 Passive Infra Red Motion Detector FGD 0007 Output Controller CM 001 FGD 0012 Water Detection Sensor FGD 0013 AC Output Module FGD 0015 DC Output Module FGD 0016 DC Input Module FGD 0017 AC Input Module FGD 0018 High Power Solid State Module FGD 0020 4 Module I O Rack FGD 0021 Temp Alert FGD 0022 ISOTEL Surge Protector FGD 0023 Humidistat FGD 0027 8 Module I O Rack FGD 0039 Smoke Detector w built in Relay FGD 0049 Humidity Transmitter FGD 0052 Remote Temperature Sensor FGD 0100 2 8K Weatherproof Temperature Sensor FGD 0101 10K Weatherproof Temperature Sensor FGD 0102 10K Outdoor Temperature Sensor FGD 0104 10K Immersion Temperature Sensor FGD 0105 Phonecell SX3e Cellular Phone FGD 0200 139 Sensaphone ISACC Instruction Manual 140 Appendix Return for Repair APPENDIX F RETURN FOR REPAIR In the event that ISACC does not function properly and you cannot reprogram it we suggest that you do the following 1 Carefully write down your observations of ISACC s malfunctioning 2 Call Phonetics Technical Service at 610 558 2700 if any instructions are not clear or if you have any question If the unit must b
33. ensure that the alarm dialout is not hindered by no answers or busy signals Communication Interface The system shall have a built in 1200 bps modem to allow remote data communi cation and programming via PC or terminal The system shall have a built in RS232 serial port for the purpose of local communication and programming via PC or terminal The system shall also have a built in RS485 port for networking up to 16 ISACC systems C Telephone Numbers 126 Appendix Engineering Specifications The system shall be capable of dialing up to 8 telephone numbers 32 digits each Individual Dialout Alarm Selection may be programmed for each input channel to instruct the system to dial specific telephone numbers for certain alarms The system shall allow local or remote data programming of the following tele phone dialing information Dialing mode voice data beeper Message repetitions 0 to 255 Rings until answer 1 to 15 Maximum number of calls 0 to 9999 Intercall delay time 5 seconds to 270 minutes Wait time between rounds 0 to 270 minutes On line time out 1 minute to 255 minutes Acknowledge on carrier Y N ge Qv Nr Programming A Local Programming The System shall have a built in RS232 port for the purpose of locally program ming all system data using a PC or dumb terminal Programming is accomplished by keyword and stand alone commands All operational data system setup and configu
34. every 2 minutes from 7 00am to 5 00pm and disables it at all other hours main if hours gt 7 hours lt 17 data 0 2 0 1 else data 0 2 0 0 92 Chapter 8 Programming ENABLE Summary int enable 11 12 int n1 Input number int n2 Command O disable 1 1 2 return status Description The enable function enables disables or reads the dialout ability for an input specified by n1 Return value The enable function returns 0 if the input is disabled or a 1 if the input is enabled for dialout Example This program will disable dialout for input 4 from 12 noon to 12 59 and enable dialout for all other hours This program will also turn on output 1 when input 1 dialout is enabled main if hours 12 enable 4 0 else enable 4 1 if enable 1 2 1 output 1 1 else output 1 0 93 Sensaphone ISACC Instruction Manual INPUT Summary int int input n Input number Description 17 18 19 20 The input function will return the present value of an input specified n1 When n1 is a number from 1 to 16 the return value is from the corresponding input For n1 equals 17 to 20 the return values are the following The built in temperature sensor in degrees F The built in temperature sensor in degrees C Battery backup level in volts DC AC
35. large power consuming power generating or power switching equipment it is recommended that SHIELDED WIRE be used Not doing so may cause erroneous input readings LENGTH OF WIRE Temperature It is recommended that long wire runs be avoided when using a thermistor as a sensor A long run of wire could alter the resistance of the circuit therefore providing an inaccurate temperature reading of the input Below is a chart of recommended gauges and wire lengths MINIMUM WIRE GAUGE MAXIMUMWIRE LENGTH LOOP RESISTANCE 26 250 feet 10 2 Ohms 24 700 feet 18 Ohms 22 1500 feet 24 15 Ohms 20 2500 feet 25 5 Ohms Dry contact The total resistance of the loop cannot exceed 50 Ohms Use the table above to determine the appropriate GAUGE wire for your application Analog Current Long wire runs will not affect the accuracy of the input because there is constant current being driven through the sensor wire Analog Voltage Wire runs should be kept as short as possible to avoid voltage drops and noise susceptibility Use the chart above as a guideline NOTE All wiring should comply with section 17 of the UL requirements INPUT MODULES Solid state input modules may also be used with ISACC Input modules provide a reliable means of interfacing between ISACC and an outside device Input modules come in AC and DC versions and are used to measure the presence or absence of AC or DC voltage respec tively The ISACC enclosure comes predrilled
36. modified 3 improperly installed 4 repaired by someone other than warrantor 5 used in a manner or purpose for which the Product was not intended or 6 sold by original purchaser WARRANTORS OBLIGATION UNDER THIS WARRANTY IS LIMITED TO REPAIR OR REPLACEMENT OF THE PRODUCT THIS WARRANTY DOES NOT COVER PAYMENT OR PROVIDE FOR THE REIMBURSEMENT OF PAYMENT OF INCIDENTAL OR CONSEQUENTIAL DAMAGES It must be clear that the warrantors are not insuring your premises or guaranteeing that there will not be damage to your person or property if you use this Product The warran tors shall not be liable under any circumstances for damage to your person or property or some other person or that person s property by reason of the sale of this product or its failure to operate in the manner in which it is designed The warrantors liability if any shall be limited to the original cost of the Product The warrantors assume no liability for installation of the Product and or interruptions of the service due to strikes riots floods fire and or any cause beyond Seller s control 4 PROCEDURE FOR OBTAINING PERFORMANCE OF WARRANTY In the event that the Product does not conform to this warranty the Product should be shipped or delivered freight prepaid to a warrantor with evidence of original purchase 5 LEGAL REMEDIES This warranty gives you specific legal rights and you may also have other rights which vary from state to state to the extent
37. nels shall be user configurable as 1 or NC digital dry contact using 1mA loop current 2 4 20mA analog using custom look up table 3 0 5V analog using custom look up table 4 Pulse count 5 Thermistor The system shall also allow monitoring of AC power failure through an input channel using built in circuitry and controlled by C program All monitored channels including built in monitoring features shall allow local and remote data programming of pertinent operational data including but not limited to 1 Input type NO NC dry contact 4 20mA and 0 5V analog pulse count thermistor High and Low limits 9999 to 9999 Input recognition time 0 seconds to 270 minutes Dialout Alarm Selection for each channel Enable disable for each channel to dialout for alarm B Outputs The system shall have 8 digital 5 Volt TTL logic level outputs capable of sinking or sourcing 20 mA The system shall also have one built in SPDT form 250VAC mechanical relay output that may be programmed to switch automatically Os Sx to manually In addition four 0 1OVDC analog outputs are also included The analog outputs shall be 0 to 10 Volts 8 bit data from 0 to 255 lI Communications Features A Telephone Specifications The system shall connect to a standard 2 wire telephone line using pulse or tone with loop start only The system shall recognize ringer frequencies from 16 to 60 Hz Call progress detection shall
38. not RESET BUTTON Under the acrylic safety panel on ISACC s PC board 15 a reset button This is provided to manually reset the unit The button can be pressed by pushing a pen or thin object through the hole provided When the reset button is pressed the PC board stays powered but the system is reset None of the unit s programming will be affected by resetting the unit Any thing that ISACC recognizes as an alarm will be acknowledged and all dial out processes will be halted BUZZER Located on the PC board is a buzzer When ISACC is turned on or reset this buzzer will go on briefly and then go off The buzzer may also be used as a local audible alarm It is consid ered OUTPUT in the programming of the parameters and C program PHONE LINE INSTALLATION ISACC must be hooked up to an analog phone line so that it can dial out for an alarm On the PC Board there is an RJ11C phone jack It is located at one end of the PC BOARD and is labeled PHONE board location P3 Connect ISACC to a standard 2 wire phone line ISACC dials using pulse or tone with loop start only ISACC will recognize ringer frequen cies from 16 to 60 Hz IMPORTANT Never install telephone wiring during a lightning storm Never install telephone jacks in wet locations unless the jack is specifically designed for wet locations Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at the network interface Use cauti
39. or will instruct ISACC to switch to tones for the remaining digits Example 1 6105554591 A P 986033 NOTE When dialing to a beeper it is sometimes necessary to combine codes Certain beeper systems vary and you must adjust accordingly To test your beeper system use an extension telephone on the same line as the ISACC unit and listen in during ISACC s dial out to confirm that your beeper service is reached without a problem If you must add a pause use the letter P to insert a two second pause wherever necessary See your beeper service for specifics SELECTION This keyword command allows you to program ISACC to dial only specific phone numbers depending on which input is in alarm To display the current dialing selection type show selection after an ISACC prompt You may also display the selection for a specific phone number by typing show selection followed by the entry number 01 08 ISACC gt show selection DIALOUT ALARM SELECTION Input source 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 1 Engineer Beeper 0 0 0 0 0 0 0 0 O0 0 O0 0 PHO2 DIF phone 0 0 00 0600 00 00 00 00 0 0 PHO3 Office 0 0 0 PHO4 Manager 0 0 0 PHO5 M Weaver 0 0 0 0 0 0 0 0 0 0 PHO6 J Hogan 0 0 0 7 A Daniels 0 0 0
40. or around the immediate area BACKUP BATTERY ISACC offers the ability to wire a backup battery to the power terminal block The backup battery can be a rechargeable non rechargeable 18VDC To hook up your backup battery wire the positive terminal of your battery to the terminal labeled BAT on ISACC and wire the negative terminal of your battery to the terminal labeled C on ISACC See diagram below POWER EG 24 24 C 20V 5V 12V C Wiring backup battery to ISACC If you are providing ISACC with rechargeable backup batteries the board must be configured so that ISACC knows to recharge the batteries When the battery is configured for recharge ISACC supplies a constant charge of 20 4VDC with maximum current limited to 185 mA To recharge the battery backup go to the SIP header at location P11 on the PC board P11 is located between the power supply terminal block and the ON OFF switch Using needlenose pliers move the shunt to the recharge position See diagram next page RECHARGE NC P11 Battery configured for recharge LITHIUM BATTERY The lithium battery provides backup to the and to the real time clock To activate the battery pull the paper strip out of the battery clip The lithium battery is a CR2430 3 Volts 270 mAhr It will provide battery backup for approximately 2 years NOTE The lithium batte
41. relay to the 5V terminal on the DIGITAL OUTPUTS terminal block 3 Wire terminal 4 on the relay to one of the digital output terminals 1 8 4 Wire terminal 2 on the relay to one of the terminals on the AC device 5 Wire the other terminal on the AC device to the NEUTRAL terminal on the AC external power source 6 Wire the HOT terminal on the AC external power source to terminal 1 on the relay See diagram below CAUTION Exercise care when handling high voltage high current circuits Failure to do so may result in electrical shock fire and or serious bodily harm AC power source AC device HOT NEUTRAL High power solid state relay QAO DIGITAL OUTPUTS H 7 6 b 4 3 2 1 CI C Wiring a high power solid state relay 48 Chapter 5 Outputs WIRING THE ANALOG OUTPUTS To wire the analog outputs 1 Wire the positive terminal on the DC device to a numbered terminal on the analog outputs terminal block 2 Wire the negative terminal on the DC device to a common on the analog outputs terminal block See diagram below ANALOG OUTPUTS Wiring an analog device OUTPUT SPECIFICATIONS DIGITAL Output Voltage 0 to 5V Output Source Current 30mA Output Sink Current 5V 20mA Max ANALOG Output Voltage 0 to 10V Resolution 8
42. so takes up the limited code space Remember you only have 8k of listing space and 2k of compiled space 6 Variables declared before the main statement retain their values after the program has been executed This provides the programmer with nonvolatile memory between runs of the program This is useful for accumulating timing and most ISACC appli cations There are no user defined functions or procedures The run through don t loop if you can avoid it philosophy Avoid the use of WHILE loops This will lengthen the execution and response time of your C program and serves no advantage Write your programs such that they run straight through and exit If your program is checking for a certain condition to occur using a WHILE loop will cause your program to concentrate on that one condition unnecessarily Since the program will execute at regular time intervals you can use an IF statement and achieve the same or even better results For example we need a program to perform two independent tasks The first task is to set output 9 on for 60 seconds whenever input 1 closes The second task is to change the datalogger rate to once per second upon closure of input 2 107 Sensaphone ISACC Instruction Manual The first program fragment uses a WHILE loop for the timing if input 1 0 output 9 1 start_time minutes while start time 1 minutes output 9 0 if input 2 0 data 0 0 1 1 In thi
43. terminal on the AC device 3 Wire the other terminal on the AC device to an even numbered termi nal on the 4 module rack 4 When using more than one AC module you may wire the odd num bered terminals on the rack together and the neutral terminals on the AC devices together See diagram on next page 44 NOTE If you are using the ABS plastic enclosure any external wiring must go through the strain relief clamps in the wall of the enclosure Replace the top cover after installation Terminal 1 on the field I O side of the 4 module rack is unused Chapter 5 Outputs DIGITAL OUTPUTS POWER 00000000909000 00000909900009 9 EG 24 24 20V 15 DOVSI So npoui DIIOS JOLI IC n T anap OV indino 2v P m n NEM indino ov indino oq NC n R oa VO P indino 6 i 2d V 0Ic E prog momo SXoo q eururo sjndjno pue Apddns gt Mdm WHLNAN LOH K ddns OV 45 Sensaphone ISACC Instruction Manual To install the 8 module rack with ISACC 1 Insert the solid state modules into the 8 module rack 2 Mount the rack in the ISACC enclosure so that
44. to the parameters you are programming REAL TIME SCREEN The software allows you to build a custom screen that includes the input and output values you want displayed You can also include your own bitmap graphics for even greater customization A separate application called Real Time Screen Builder is included for this purpose For more information on the MANAGER for Windows Software Package contact Phonetics at 610 558 2700 10 Chapter 2 Installation CHAPTER 2 INSTALLATION This chapter explains the unpacking and installation of ISACC both the complete package FGD 5000 and the board level product FGD 5100 The complete package system is mounted in a NEMA 4 ABS plastic enclosure with 18 VDC rechargeable battery backup The board level unit is provided with a mounting kit so that you can mount the system properly in another enclosure etc It is important that this chapter be read thoroughly and followed very carefully before operating ISACC Instructions for the complete package follow For instructions on installing the board level product turn to page 15 Refer to Appendix B for a diagram of the ISACC board layout COMPLETE PACKAGE INSTALLATION FGD 5000 UNPACKING ISACC ISACC is shipped in specially designed packaging so that no damage will occur during ship ment When unpacking the unit be careful not to damage the equipment or the box It is recommended that the packaging be saved for future use With
45. variable names int 3temp int average result per day int inside room int timer 4 The ISACC C language has other tools available to construct your program One of the most important tools is the if statement The if statement is used to make a decision whether or not to execute a sequence of statements Example The following program will print X is big only if x if greater than 10 which in this case is true When the condition in the if statement is true the program continues through the statements inside the if braces If the condition was not true the program skips the block of statements int x main 14 if x gt 10 puts X is The else statement can be used with the if statement and gives instructions on what to when the if statement is false 80 Chapter 8 Programming Example In the following program if x is greater than 30 words X is big will print If x is not greater than 30 the words X is small will print In either case done will always print int x main 238 x gt 30 puts X is big n else puts X is small n puts 11 done n There are commands other than if and else and built in variables to access ISACC s inputs and outputs Details for these will be covered later 81 Sensaphone ISACC Instructi
46. wW o jolla W 9 ox eV 9 l Oa SLOdLNO SLAd LAO SS Q 4 8 high power solid state relays mounted to steel panel lt Steel back plate High power relays Mounting holes for 4 module rack and 8 module rack SACC circuit board 137 Sensaphone ISACC Instruction Manual lt Steel back plate O GM 9 Qe Su Ov lt 4 module rack W 1 2 1 2 N gt gt O QI Q Q Q a gt 3 lt High power relays O O ISACC circuit board ANTAN SiL diL O SLAdGLNO TWLISIG EEEREN F Q RE Q a ao 4 high power solid state relays and one 4 module rack mounted to steel panel 138 Appendix Accessories APPENDIX E ACCESSORIES The sensors and accessories listed below are the most commonly used with ISACC In addi tion there are a virtually unlimited variety of sensor switch input devices available at commer cial or industrial
47. when it is greater than 100 main if 9 gt 100 putnum input 9 NOTE PUTNUM does not send data to the modem port 98 Chapter 8 Programming PUTS Summary int puts s char 5 String Description The puts function will write a string to the local RS232 port Return value The puts function always returns a zero Example This program will send the string SHUTDOWN followed by a carriage return and send the string Input 11 is 96 followed by a carriage return to the RS232 port when input 11 is equal to 96 A carriage return is created by typing n main if input 11 96 puts SHUTDOWN n puts Input 11 is putnum input 11 puts Your output will look like the following SHUTDOWN Input 11 18 96 final cursor placement NOTE The PUTS function does not send data to the modem port The PUTS function will not accept variables or formatted data You must use a combination of PUTS and PUTNUM 99 Sensaphone ISACC Instruction Manual RESET Summary int reset int n Input number Description The reset function resets the values automatically maintained by the system for an input specified by n If the input is analog reset resets the max and min values If the input is a pulse counter reset sets the pulse count to zero If the input is a dry contact reset has no effect Return va
48. 0 bps 1200 bps 9600 bps There are 9 pins at board location P10 P10 is located under the acrylic safety panel next to the digital outputs terminal block Three shunts are provided to configure the communication speed for the RS232 port The speed is determined by the different positions of the shunts All three shunts must be used for ISACC to communicate properly To configure the shunts you must first remove the acrylic panel Using needlenose pliers move the shunts to the 24 Chapter 3 Communication Setup appropriate positions Replace the acrylic panel when finished See diagrams below To configure P10 for 150 bps the shunts must be OFF OFF OFF P1 0 1 2 3 ON OFF Shunt configuration for 150 bps To configure P10 for 300 bps the shunts must be ON OFF OFF P10 1 2 3 ON OFF Shunt configuration for 300 bps To configure P10 for 1200 bps the shunts must be OFF ON OFF P1 0 1 2 3 ON OFF Shunt configuration for 1200 bps 25 Sensaphone ISACC Instruction Manual To configure P10 for 2400 bps the shunts must be ON ON OFF P1 0 1 2 3 ON OFF Shunt configuration for 2400 bps To configu
49. 0 bps the shunts must be OFF ON OFF 210 1 2 3 ON OFF Shunt configuration for 1200 bps 28 To configure P10 for 2400 bps the shunts must be ON ON OFF Chapter 3 Communication Setup P10 Shunt configuration for 2400 bps To configure P10 for 4800 bps the shunts must be OFF OFF ON P10 1 2 3 ON OFF Shunt configuration for 4800 bps To configure P10 for 9600 bps the shunts must be ON OFF ON P10 ON OFF Shunt configuration for 9600 bps NOTE Again do not change the configuration of the shunts for local communica tions unless you are absolutely positive that your terminal cannot communicate at 9600 bps 29 Sensaphone ISACC Instruction Manual 6 If you changed the position of the shunts you must reset ISACC so the unit can recognize the new configuration To do this press the reset button a hole is provided in the acrylic panel for easy access or turn the ON OFF switch off then on If you did not reconfigure the shunts you do not need to reset ISACC 7 Go to your terminal setup screen Set the baud rate of the terminal to 9600 bps 8 Pres lt RETURN gt You will receive ISACC welcome screen You are now online wit
50. 000 Min 003 Sec New minutes gt 001 New seconds gt 030 INO9 Input 9 000 Min 003 Sec New minutes gt New seconds gt IN10 Input 10 000 Min 003 Sec New minutes gt New seconds gt IN11 Input 11 000 Min 003 Sec New minutes gt New seconds gt IN12 Input 12 000 Min 003 Sec New minutes gt New seconds gt IN13 Input 13 000 Min 003 Sec New minutes gt New seconds gt IN14 Input 14 000 Min 003 Sec New minutes gt New seconds gt IN15 Input 15 000 Min 003 Sec New minutes gt New seconds gt IN16 Input 16 000 Min 003 Sec New minutes gt New seconds gt 61 Sensaphone ISACC Instruction Manual ALARMS The keyword command SHOW ALARMS will display the present status of the inputs in alarm if any alarms exist The prefix SET is not valid with this keyword To display the current input alarm status type show alarms at an ISACC prompt ISACC gt show alarms DIALOUT ALARM STATUS No alarms DIALOUT This command allows you to enable or disable an input s ability to cause a dialout during an alarm on that input If the input is enabled an alarm on that input will initiate a dialout If the input is disabled ISACC will not dialout if an alarm occurs on that input To display the input dialout programming type show dialout after an ISACC prompt You may also display the dialout programming for a specific input by typing show dialout followed by the input number
51. 01 12 17 93 10 15 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 74 Chapter 7 Programming DIAG This command runs a diagnostics test to verify system functioning and pinpoint errors To run the diagnostics test type diag following an ISACC prompt ISACC 2diag Crystal 14 7456Mhz Board rev C D E Software version 3 37 Max int stack 151 Min ext stack 24539 Max int time 5734 Min int time 4166 Avg int time 4188 C run time 0 mS Start ups 1 ROM test PASS Internal RAM test PASS External RAM test PASS PASS Analog input test PASS Phone test NO DIAL TONE Reset ISACC gt Crystal speed board revision and software revision used for factory identification Max internal stack min internal stack max interrupt time min interrupt time and avg interrupt time refer to memory usage and processing times These are internal moni toring elements that are important for factory referral C execution time indicates the duration time of the C program if one is running Start ups indicates the number of times the unit has been powered up or reset ROM test internal RAM test and external RAM test these tests evaluate different sections of memory Each are either PASS or FAIL Analog input test determines ISACC s ability to read analog information from the inputs It is either PASS or FAIL Phone test determines if there is a dial tone or not Reset y n This is the remote e
52. 01 gallta 00000 200008 galltb 00000 500990 rate 00000 500001 temp 00000 500038 in 00000 500794 71 Sensaphone ISACC Instruction Manual STAND ALONE COMMANDS The STAND ALONE commands are used without the command prefix SET or SHOW to execute an action The STAND ALONE commands are RESET EXIT CLEAR DATA PATCH 123 HELP DIAG The format for using a STAND ALONE command is the following ISACC COMMAND RESET ISACC keeps track of all the highest and lowest events for each analog input These are labelled MIN and MAX values The RESET command allows you to reset the MIN and values for all the analog inputs for one specific input If an input is defined as a pulse counting input then the RESET command will clear the pulse count to zero To reset all minimum and maximum values type reset after an ISACC prompt To reset a specific input s minimum and maximum values type reset followed by the input number ISACC gt reset Minimum maximum and pulse count values reset CLEAR This command is used to stop a dialout in progress for all inputs or for one specific input by clearing the alarms To clear all alarms type clear after an ISACC prompt To clear a specific alarm type clear followed by the input number ISACC gt clear CLEAR DIALOUT ALARMS Input 01 cleared Input 02 cleared Input 03 cleared Input 04 cleared Input 05 cleared Input 06 cleared Input 07 cleared Input 08 cleared Inp
53. 1 12 17 93 10 09 54 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 11 24 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 12 54 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 14 24 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 15 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 123 This command displays input values for data log records for specified inputs so that they can imported into a spreadsheet program like Quattro or Lotus It is used the same as the DATA command Refer to your communication software manual on how to capture the data to a disk and then import the information into your spreadsheet software Using the above ex ample ISACC would display the following ISACC gt 123 9 10 12 17 93 10 02 24 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 03 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 05 24 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 06 54 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 08 24 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 09 54 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 11 24 0001 0001 0001 0799 2300 0001 0001 0794 0001 12 17 93 10 12 54 0001 0001 0001 0798 2300 0001 0001 0794 0001 12 17 93 10 14 24 0001 0001 0001 0799 2300 0001 0001 0794 00
54. 1 values int average total 60 int oldminute minute counter main if oldminute minutes oldminute minutes numbers minutes input 1 total 0 for x 0 x lt 60 x x 1 total total numbers x average total 60 if total 60 gt 30 average average 1 set_input 2 average 103 Sensaphone ISACC Instruction Manual The following is a step by step explanation of the program 1 if oldminute minutes oldminute minutes This checks the value of minutes to see if a minute has passed If a minute has passed the value of oldminute is reset to the value of the new minute 2 numbers minutes input 1 This line sets the value of numbers for a particular minute to the current value of input 1 For example It is 3 minutes into the hour The value of input 1 is 72 Therefore numbers minutes input 1 is equal to numbers 3 72 3 total 0 This line initializes the variable total to zero 4 for x 0 x lt 60 x x 1 This line initializes the index variable x to zero checks if it is less than 60 runs the next line and then increments x by one This line creates a loop that runs the following line until x reaches 60 5 total total numbers x This line of code is very important It eliminates having 60 lines of code to get a total of all the minute readings The x serves to automatically read in the next value for each element in
55. 3 Sec INO4 FLOW RATE GPM 000 Min 003 Sec INO5 WELL LEVEL FT 000 Min 003 Sec 1106 RESET 000 Min 003 Sec INO7 Input 7 000 Min 003 Sec 1108 VOLTAGE 000 Min 003 Sec INO9 Input 9 000 Min 003 Sec IN10 Input 10 000 Min 003 Sec IN11 Input 11 000 Min 003 Sec IN12 Input 12 000 Min 003 Sec IN13 Input 13 000 Min 003 Sec IN14 Input 14 000 Min 003 Sec IN15 Input 15 000 Min 003 Sec IN16 Input 16 000 Min 003 Sec To program the recognition times type set recognition after an ISACC prompt Enter a new value for the minutes and press ENTER Enter a new value for the seconds and press EN TER to go to the next parameter You may also program the recognition time of a specific input by typing set recognition followed by the input number ISACC gt set recognition INPUT RECOGNITION TIME 1 LOW WELL FLOAT 000 Min 003 Sec New minutes gt New seconds gt 001 INO2 HI SUMP FLOAT 000 Min 003 Sec New minutes gt New seconds gt 001 INO3 Input 3 000 Min 003 Sec New minutes gt New seconds gt 001 4 FLOW RATE GPM 000 Min 003 Sec New minutes gt 001 New seconds gt 030 INO5 WELL LEVEL FT 000 Min 003 Sec New minutes gt 005 New seconds gt 000 INO6 RESET 000 Min 003 Sec New minutes gt New seconds gt INO7 Input 47 000 Min 003 Sec New minutes gt 010 New seconds gt 000 INO8 VOLTAGE
56. 31 numbers or characters long Phone number of unit The ISACC unit may be reached at this number This number is used in voice mode identification The phone number may be up to 31 digits long and can be typed plain using hyphens and parentheses Example gt 16105551234 gt 1 610 555 1234 gt 1 610 555 1234 Phone number of unit Phone number of unit Phone number of unit Data password The data password can be any combination of numbers or letters up to 30 characters long The password is case sensitive You MUST enter the password exactly as it was originally programmed with capitals small letters punctuation etc If the password 15 forgotten the only way to access ISACC is to turn the unit off and remove the lithium battery All programming will be deleted and reset back to the default settings Network node number Up to 16 ISACC units may be networked together in series via the RS485 port The network node number identifies the ISACC unit in the network This number may be from 0 to 15 the default is 1 If ISACC is not part of a network its network node number should be set to 1 Rings until answer This parameter is the number of rings ISACC will wait before answer ing the phone line when the unit is being called The rings may be programmed from 1 to 15 the default is 1 Phone dialing This parameter allows you to determine whether ISACC will dial out using pulse or tone dialing The unit will prompt you to enter 0 f
57. 8191 bytes available ISACCslist 01 main 02 03 36 bytes used 8155 bytes remaining 83 Sensaphone ISACC Instruction Manual STAND ALONE COMMANDS Stand alone commands are one word commands that are typed at an ISACC prompt They are instructions for the physical execution of a C program They allow you translate the C pro gram into ISACC s language run the program once to test start and stop the continuous execution of the program within ISACC The four commands are COMPILE RUN START and STOP COMPILE This command must be typed in before the program is executed All programs that are writ ten must be translated into a language that ISACC will understand and this is done with the COMPILE command When you type the command COMPILE ISACC scans your program looks for errors and makes another copy in its memory in a coded format The coded format is another language so ISACC will run more efficiently When you type COMPILE the following will appear ISACC gt compile Starting prescan Found main Finished scanning Prescan completed 0 global variables found ISACC gt The new program is checked for syntax errors problem is found an error code will be displayed The type of error code depends on where the code is found and what kind it is Multiple errors must be corrected one at a time before ISACC will continue to scan the program Please refer to the ERROR HANDLING section in this chapter IMPORTANT
58. 9 is N10 is N11 is N12 is N13 is N14 is N15 is N16 is HHHHH Zi w H BH BE H HH KI HI now now now now now now now now now now now now now now now now Table 1 Table 4 Digita Digita Digita Digita Digita Digita Digita Digita Digita Digita Digita Digita Digita Digita Digital Digital 01 SOR N Digital 0 5 Volts Analog Analog 10 Analog Table 2 10K F 02 Digital 13 User Defined gt 00 gt gt gt 09 Name Name Name Name Name Name Name Name Name Name Name Name Name Name Name Name Input Input Input Input Input Input Input Input Input Input Input Input Input Input Input Input 05 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Analog 2 8K 08 Analog 1 11 Analog Table 3 gt LOW WELL FLOAT gt HI SUMP FLOAT gt gt FLOW RATE GPM gt WELL LEVEL FT gt RESET gt gt VOLTAGE OME OND NOTE The unit will not speak the input when in voice mode 58 Chapter 7 Programming TABLE ISACC allows you to create up to four custom linear analog tables to be used with 4 20mA or 0 5V analog sensors This allows you to translate a 4 20mA or 0 5V signal into a more mean ingful number For example if your transducer is calibrated for 0 10 of wat
59. ATIONS NOTICE cc eeeeeee eere 21 CHAPTER 3 COMMUNICATION SETUP cc ceeeeee eere eene enn 23 SETUP FOR PC 35 2 cR 24 LOCAL COMMUNICATION THROUGH RS232 24 SETUP FOR TERMINAL sea dea yeko dee sakar ke eu kel neken ree vau 27 LOCAL COMMUNICATION THROUGH RS232 27 REMOTE COMMUNICATION VIA MODEM cxcxssseeeereeeeeeeeee ne Hewce cenke n nnne tasse eene innu 30 ISACC RS232 SPECIFICATIONS us on etra Ch Cor EY epu EP ook o Ea aua Ure voe KK K H sr 31 NETWORK WIRING TS 31 CHAPTER 4 1N PU L uoi NERE 33 HOW THE INPUTS WORK keke ye cen erba H HEKE 33 INPUT TERMINAL BLOCK wun sek e e dae e wa veta eee k aa en Kun sal ne 35 WIRING SENSORS TO THE INPUTS eterna eorura eoe auta aV ha aa re tope o selon aree eaa esr rone 35 SHIELDED WIR 36 3 cung inique 37 INPUT MODULES ous aw FN evda GAN te 37 To use the 4 module rack with 15 eee eee eene eene eene tnnt ken eee H e ke K HK HHH KHK HH KHK RR 37 To wire the logic I O right si
60. Any time the program is changed or corrected it must be recompiled If it is not ISACC will continue using the old version of the program When the program is recompiled all variables are reset to zero RUN After the program has been compiled you may enter RUN at a prompt The RUN command allows you to see your new program executed once It is wise to check the new program before continuing When you type RUN ISACC will display a Run time which is the amount of time it takes to execute This is required when starting the program so it is wise to make a note of it It will also display any Run time errors it finds ISACC gt run Run time 0 140 seconds START amp STOP After the program has been compiled and run once you may start your program by entering START Your screen will display the following ISACC gt start Reload time seconds 2 gt 84 Chapter 8 Programming The reload time is how much time ISACC will wait between running the program This is programmable so you can make the unit most efficient by telling ISACC to execute the C program only when necessary For instance if you require the program to run every half hour it is not necessary to waste ISACC s time and have the program run every 10 seconds The reload time must be at least double the Run time and can be given in whole numbers only The Run time is provided when you RUN your program So if your Run time is 1 5 seconds the Reload time must be
61. DEVICES APPENDIX E ACCESSORIES APPENDIX RETURN FOR REPAIR WARRANTY isi seken eo as ees zn neku beke pa viii Chapter 1 Introduction CHAPTER 1 INTRODUCTION ISACC is a unique device that puts monitoring alarm and control capabilities all in one system It can monitor equipment and environmental conditions using 16 universal inputs In addition these inputs can be programmed to switch up to 8 digital outputs and four analog outputs in any combination Along with control ISACC offers comprehensive communication When an alarm occurs ISACC can dial up to 8 phone numbers and communicate in voice or data with its built in 1200 bps modem One advantage ISACC has over other similar systems is that it is an all in one package There are no additional components to buy to complete the system and ISACC s programming flexibility provides the control you need to get the job done PROGRAMMING ISACC Even with all of these features ISACC is easy to use A terminal or PC 15 all that is required to communicate and program locally or remotely Phonetics also includes a Windows software package ISACC Manager for Windows to help you take full advantage of ISACC s powerful capabilities Text Mode programming is also available with simple keywords or stand alone commands ISACC prompts for everything that is necessary so you will have the unit up and runni
62. ELAY OUTO2 Output 2 LOW WELL LIGHT OUTO3 Output 3 gt HI SUMP LIGHT OUTO4 Output 4 om OUTO5 Output 5 ox OUTO6 Output 6 gt OUTO7 Output 7 OUTO8 Output 8 om OUTO9 On board buzzer gt OUT10 On board relay gt OUT11 Analog output 1 CONTROL VALVE OUT12 Analog output 2 gt OUT13 Analog output 3 gt OUT14 Analog output 4 gt 64 Chapter 7 Programming PHONE ISACC is capable of dialing to up to 8 phone numbers 32 digits each during an alarm ISACC can dial to a modem to a standard touch tone or pulse telephone VOICE mode to a beeper or through an external modem The command SET PHONE prompts you to pro gram the phone number the dialing mode modem voice beeper external modem and a descriptive label name maximum of 16 characters for each phone number DIALING MODES ISACC is capable of dialing out to a 300 bps modem 1200 bps mo dem to a pulse or touch tone telephone to a beeper or through an external modem The dialing modes tell ISACC whether it will be dialing to or through a modem and its speed to a pulse telephone or to a tone telephone The dialing modes are Dialing mode 0 dial out in data mode through the internal modem at 300bps Dialing mode 1 dial out in data mode through the internal modem at 1200bps Dialing mode 3 dial out in voice mode and give message in digitized voice Dialing mode 4 dial out to a beeper leav
63. Example This program will set the value of input number 3 equal to the average values of inputs 1 and 2 int x main x input 1 input 2 2 set input 3 x 102 Chapter 8 Programming ARRAYS Arrays allow you to store a lot of related information in a convenient organized fashion An array lets you use one line of code to create a series of variables These variables share the same basic name and are distinguished from one another by a numerical tag Example int count 10 This means that an array named count has 10 members or elements with each element having its own value starting with 0 and ending with 9 The first element is count 0 the second element is count 1 and so on up to count 9 The type int means that the actual numerical value of each element is an integer Example count 2 7 count 4 131 count 9 26 SAMPLE PROGRAM This program calculates a one hour average temperature The array named numbers sets up a series of variables from 0 to 60 to hold a value for input 1 for each minute in an hour The 60 values are totalled then averaged The value of input 2 is then set to this average By using an array the code becomes substantially more concise The program is first listed then followed by a section by section explanation of how it works int numbers 60 array input 1 value for each minute int x index to the array int total total of the input
64. ISTS variable is equal to one When there are no unacknowledged alarms it is equal to zero 89 Sensaphone ISACC Instruction Manual Example This program will turn on the buzzer output 9 whenever any alarm occurs It will turn the buzzer off when the alarm is acknowledged main if exists 1 output 9 1 else output 9 0 UPTIME This variable contains the number of seconds since the last power up or reset This value starts at zero when the unit is powered up or reset and will increase in increments of one up to 3600 seconds After 3600 seconds 1 hour it will continue to have a value of 3600 EXAMPLE This program will keep output 2 off for the first 30 seconds of power up and controlled by input 1 after that main if input 1 588 amp amp uptime 30 output 2 1 1 output 2 0 90 Chapter 8 Programming FUNCTION LIBRARY In ISACC s C language there are a number of functions that are predefined These functions allow you to retrieve certain values and incorporate them into your C program A function can be a statement by itself or it can be used to retrieve a value and return it This function is turning output one on and is an example of a function acting alone output 1 1 This function retrieves the value of input 3 x input 3 The format for how these functions work is in a reference format First the fu
65. LOW WELL FLOAT Yes INO2 HI SUMP FLOAT Yes INO3 Input 3 Yes 1404 FLOW RATE Yes INO5 WELL LEVEL FT Yes 11406 RESET 1107 Input 7 Yes INO8 VOLTAGE INO9 Input 9 Yes 1410 Input 10 Yes IN11 Input 11 Yes IN12 Input 12 Yes IN13 Input 13 Yes IN14 Input 14 Yes IN15 Input 15 Yes IN16 Input 16 Yes OUTO1 WATER PUMP RELAY Yes OUTO2 LOW WELL LIGHT Yes OUTO3 HI SUMP LIGHT Yes OUTOA Output 4 Yes OUTO5 Output 5 Yes OUTO6 Output 6 Yes OUTO7 Output 7 y Yes OUT08 Output 8 j Yes OUTO9 On board buzzer Yes OUT10 On board relay Yes OUT11 CONTROL VALVE OUT12 Analog output 2 Yes OUT13 Analog output 3 Yes OUT14 Analog output 4 Yes To program the information to be provided in the voice status report type set voice after an ISACC prompt At the prompt enter to include the information N to exclude Press ENTER to go to the next parameter ISACC gt set voice VOICE STATUS SELECTION 1 LOW WELL FLOAT Yes Y or N gt INO2 HI SUMP FLOAT Yes Y or N gt 1403 Input 3 Yes Y or N gt INO4 FLOW RATE GPM Yes Y or N gt INO5 WELL LEVEL FT Yes Y or N gt INO6 RESET Yes or N gt 1407 Input 7 Yes Y or N gt N INO8 VO
66. LTAGE Yes Y or N gt 1409 Input 9 Yes Y or N gt N IN10 Input 10 Yes Y or N gt N IN11 Input 11 J Yes Y or N gt N 68 1412 1413 1414 1415 1416 OUTO1 OUT0O2 OUT03 OUTO4 OUTO5 OUTO6 OUTO7 OUTO8 OUT09 OUT10 OUT11 OUT12 OUT13 OUT14 LOGGING Input 12 Input 13 Input 14 Input 15 Input 16 WATER PUMP RELAY LOW WELL LIGHT HI SUMP LIGHT Output 4 Output 5 Output 6 Output 7 Output 8 On board buzzer On board relay CONTROL VALVE Analog output 2 Analog output 3 Analog output 4 Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes eee eee eee ees or or or or or or or or OF Or or or or or O3 22222222424 22222422424 SESSA S282 2232223222 gt N gt N gt N gt N gt N gt N gt N gt N gt N gt N gt N gt N gt N Chapter 7 Programming ISACC s data logging feature gives you the ability to log and store up to 512 records Each record contains the present value of all 16 inputs with a time stamp The keyword command SET LOGGING prompts you to determine the time between logs whether to enable or disable the data logger and whether to reset the data logger This command also informs you of how many records have been used and how many are available To disp
67. PC board to the right of the input terminal block and is labeled PHONE board location P3 Connect ISACC to a standard 2 wire phone line ISACC dials using pulse or tone with loop start only ISACC will recognize ringer frequencies from 16 to 60 Hz IMPORTANT Never install telephone wiring during a lightning storm Never install telephone jacks in wet locations unless the jack is specifically designed for wet locations Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at the network interface Use caution when installing or modifying telephone lines 19 Sensaphone ISACC Instruction Manual FCC REQUIREMENTS PART 68 This equipment complies with Part 68 of the FCC rules On the acrylic panel there is a label that contains among other information the FCC Registration Number and the Ringer Equivalenzce Number REN for this equipment You must upon request provide this informa tion to your local telephone company The REN is useful to determine the quantity of devices that you may connect to your telephone line and still have all of those devices ring when your telephone number is called In most but not all areas the sum of the REN s of all devices connected to one line should not exceed five 5 0 To be certain of the number of devices that you may connect to your line you may want to contact your local telephone company to determine the maximum REN for your calling area This
68. See Chapter 7 Phone programming 5 Reset ISACC This initializes ISACC so that it knows that an external modem exists 119 Sensaphone ISACC Instruction Manual 120 Chapter 10 Glossary CHAPTER 10 GLOSSARY STAND ALONE COMMANDS Clear Used alone or with an input number to stop the dial out for a specific alarm Compile Instructs ISACC to compile your C program Data Instructs ISACC to display the records of the data logging function Delete Allows deletion of one or more lines of your C program Diag Runs a diagnostics test to help pinpoint functioning errors Disable Used alone or with a specific input number to disable dial out for that input or all inputs if used alone Erase Used to delete an entire C program at once Exit Used to exit out of ISACC Help Used alone to list commands and set show key words Insert Allows insertion of one or more lines into your C program Note to modify an already existing line the line must to be deleted see below and then be inserted as a new line at that point List Used to list the C program If used alone ISACC will list the whole program If used with one number after it will list that line number If used with two numbers it will list from one line to the other Patch Used alone to allow communication from a modem phone line to devices connected to RS232 port turning ISACC into a transparent modem This command is used only when communica
69. Sensaphone ISACC Operator s Manual version 3 49 Every effort has been made to ensure that the information in this document is complete accurate and up to date Phonetics Inc assumes no responsibility for the results of errors beyond its control Phonetics Inc also cannot guarantee that changes in equipment made by other manufacturers and referred to in this manual will not affect the applicability of the information in this manual 1997 by Phonetics Inc Version 3 49 September 2000 Written and produced by Phonetics Inc Please address comments on this publication to Phonetics Inc 901 Tryens Road Aston PA 19014 Updates and addendums to this manual can be found on the Support pages of our web site http www sensaphone com Sensaphone is a registered trademark of Phonetics Inc Touch Tone is a registered trademark of AT amp T SAFETY INSTRUCTIONS IMPORTANT SAFETY INSTRUCTIONS Your ISACC has been carefully designed to give you years of safe reliable performance As with all electrical equipment however there are a few basic precautions you should take to avoid hurting yourself or damaging the unit Read the installation and operating instructions in this manual carefully Be sure to save it for future reference Read and follow all warning and instruction labels on the product itself To protect the ISACC from overheating make sure the unit is not subject to direct sunlight Do not place o
70. T11 CONTROL VALVE OOOO j O nj 000 000 000 000 type set outputs after an ISACC prompt Enter a value and press ENTER to go to the next parameter You may also program or switch a specific output by typing set outputs followed by the output number nj 63 Sensaphone ISACC Instruction Manual OUT12 Analog output 2 MAN 000 gt OUT13 Analog output 3 MAN 000 gt OUT14 Analog output 4 MAN 000 gt ONAME This keyword command allows you to assign a descriptive name to an output To display the label name for each output type the command show oname at an ISACC prompt You may also display a specific output name by typing show oname followed by the output number ISACC gt show oname OUTPUT LABEL NAMES OUTO1 Output 1 OUTO2 Output 2 L OUTO3 Output 3 OUTO4 Output 4 OUTO5 Output 5 p OUTO6 Output 6 OUTO7 Output 7 y OUT08 Output 8 OUTO9 On board buzzer OUT10 On board relay OUT11 Analog output 1 OUT12 Analog output 2 OUT13 Analog output 3 OUT14 Analog output 4 To assign a descriptive name to an output type set output after an ISACC prompt Press ENTER to go to the next parameter You may also program a specific output name by typing set oname followed by the output number ISACC gt set oname OUTPUT LABEL NAMES OUTO1 Output 1 gt PUMP R
71. Volt and 20 Volt supplies are battery backed but usage affects battery backup time The charge voltage at the BAT terminal is 20 4 Volts Main power 24VAC is supplied through the two terminals labelled 24 and 24 The Earth Ground Terminal is labelled EG NOTE If you are using the ABS plastic enclosure you must remove the top cover to access the circuit board After wiring is completed reinstall the top cover wiring should be properly fitted through the strain relief clamps Strain relief is provided in the ISACC enclosure to prevent wiring from being pulled from the circuit board or damaged while passing through the enclosure To use thread wires through the clamp and clear rubber bushing Position the bushing in the clamp and tighten the screws on either side so that the wiring does not move All wiring should comply with section 17 of the UL requirements 51 Sensaphone ISACC Instruction Manual 52 Chapter 7 Programming CHAPTER 7 PROGRAMMING The standard parameter programming and system setup of ISACC is accomplished through using short command words called KEYWORDS and STAND ALONE commands To use either type of command you simply type the letters after an ISACC prompt ISACC gt and then press the ENTER or RETURN key Note About Programming Examples Commands and example information in this chapter that are typed in by the user are represented in bold type This is so that you can easily see what has been cha
72. able of dialing out in voice mode data mode or to a beeper When dialing out to a telephone number programmed as voice the alarm message shall be delivered in voice synthesized English using the internally resident vocabu lary When dialing in data mode the system shall expect a data connection and shall send information to print to a PC or terminal monitor When dialing to a beeper the system shall send digits that identify the input in alarm The system will continue to call telephone numbers in succession until a positive acknowledgment of the alarm message is received Acknowledgment is accomplished from a touch tone telephone by PC or by terminal In addition the system shall be able to receive incoming telephone calls from a standard telephone or modem Upon answering the system shall attempt a data connection connection is made the system shall allow remote access to programming and operation If a data connec tion is not made the system shall recite a voice synthesized status report with information that is pre selected by the user The system shall be FCC and DOC registered for direct connection to the tele phone network The system shall have a one year warranty from the manufacturer The system shall be a Sensaphone ISACC by Phonetics Inc 125 Sensaphone ISACC Instruction Manual Il I O Channel Attributes and Features Inputs The system shall come standard with 16 universal input channels All input chan
73. allowed by law expressly in lieu of any other express or implied warranty condition or guarantee PHONETICS INC 901 Tryens Road Aston PA 19014 Phone 610 558 2700 Fax 610 558 0222 www sensaphone com
74. an 3 Amps individual high power solid state relays must be used Solid State Output Modules The solid state output modules come in AC and DC ver sions and are typically limited to 3 Amp switching They are designed to be plugged into output mounting boards racks The ISACC enclosure is predrilled to mount either one 4 module rack or one 8 module rack using four 6 32 1 machine screws See Appendix C for mounting diagrams AC and DC output modules FGD 0015 and FGD 0016 the 4 module rack FGD 0021 and the 8 module rack FGD 0039 are available from Phonetics See Appendix D for acces sory information Other output modules from different manufactures may be used with ISACC Contact Phonetics for more information If you use an 8 module rack you must use a ribbon cable to connect AC DC output modules to ISACC The ribbon cable attaches to the rack and plugs into a 26 pin DIP header at location P14 on ISACC The output signals at the DIP header are internally connected to those at the terminal block This is only for the digital outputs there is no DIP connector for the analog outputs See the 8 module rack installation diagram NOTE With the 4 module rack you may use a combination of input and output modules For more information on using and wiring input modules see Chapter 4 Inputs 43 Sensaphone ISACC Instruction Manual To wire the 4 module rack logic I O to ISACC 1 Insert solid state modules into the 4 module rack
75. ay Have a good day and then hang up STATUS REPORT DATA MODE At any time the unit is idle not dialing out or communicating locally you can call into it for a status report If you call using a modem ISACC will answer after its programmed rings until answer and allow you to go online At this point you have entered an online session identical to the local programming session and may program or interrogate as long as needed DATA LOGGER ISACC 55 capable of logging and storing up to 512 data log records Each record contains the present value of all 16 inputs with a time stamp The time between logs is user programmable At any time you may access the system to display log information on a terminal or PC monitor or print the log information to a printer hooked up to the built in 5232 serial port requires a C program You may retrieve the data log remotely by terminal or PC When 512 records have been logged ISACC will overwrite the oldest records with new records data log records can also be formatted to be imported into a spreadsheet software program The data log is a separate function within the ISACC programming that runs independently of other operating features EXTERNAL MODEM ISACC provides you with the option to use an external modem with the unit There are two reasons to use an external modem One is to gain a faster transmis sion rate The fastest available internal modem speed with ISACC 5 1200 bps Mode
76. cessory Bag that contains the following Male DB25 plug to RJ11C Female DB25 socket to RJ11C Female 9 pin socket e 10 feet RS232 wire with male RJ11C on each end To connect your terminal to ISACC s RS232 port do the following 1 Insert the male DB25 plug into ISACC s RS232 port 2 Insert one end of the RS232 wire into the male DB25 plug 3 Insert the other end of the RS232 wire into the female DB25 socket 4 Insert the female DB25 plug into your terminal s male RS232 port NOTE You may encounter a common problem at step four Some terminals have a female RS232 port Since the provided equipment has a female DB25 socket you may have to obtain a gender changer to connect the socket to your terminal See page 30 for ISACC s RS232 Specifications and a diagram of the RS232 DB25 socket 5 After connecting the terminal with ISACC you may need to configure your terminal s RS232 port to communicate at the same speed bps as your terminal refer to your terminal s operator s manual If this is not an option you can change ISACC s communication rate by configuring the shunts at location P10 on the ISACC board Before changing anything read the following IMPORTANT The speed of ISACC s RS232 port is completely independent of ISACC s built in modem or modem speed ISACC s modem has its own separate RS232 port built in Therefore you do not need to configure ISACC to communi cate at the same speed as its built in modem
77. de to ISACC eeeeee nnn eren kerkere Herke eekee ereke ee Herke e HEK HK KH HHH tn 38 To wire the field I O left side to the input 38 DIP CONNECTOR FOR A 16 MODULE RACK yeeeeeeeeeeeeeeeeeeeeeee keeeee Ke K KH HHK KRE 38 To use the 16 module rack eee sr Ce kele d n rek de 39 ISACC INPUT SPECIFICATIONS 5 55454 4 45 22 4545503050505 s k na Sene Ve beka WG S e C 40 INPUT MODULE SPECIFICATIONS de mun ant DIY Vea ee e 40 AC INPUT MODULE PGD 0018 Heee eeeeeeeeeeeeeeeeeee k uua 40 DC INPUT MODULE FGD O01 7 iissccsssvesccdetsinevseocsenebicsscedsssvetscthsesdsaessduesescueessnscecwevssapesseee 40 CHAPTER 5 OUTPUTS yaka ne AR 41 HOW THE OUTPUTS WORK 41 OUTPUT TERMINAL BLOCKS SNP Ent c Eb seke seess debe a se e reya wesa e eer ene esi kk 41 WIRING THE MECHANICAL RELAY 42 To wire device to the mechanical relay using ISACC power 42 To wire a device to the mechanical relay using an external power source 42 WIRING THE DIGITAL OUTPUTS reos o eS e vena UE LUE VE abo Quer a Mee e
78. e of information takes one second to transfer to another unit The more requests you have programmed the longer it will take for each round through the units To program an information request type set network after an ISACC prompt Press ENTER to go to the next parameter ISACC gt set network NETWORK REQUESTS Request 01 Node gt 1 Input or Output 1 0 gt i I O number gt 4 Request 02 Node gt 1 Input or Output 1 0 gt I O number gt 3 Request 03 Node gt 2 Input or Output I O gt i I O number gt 14 Request 04 Node gt To display the network request values type show network after an ISACC prompt ISACC gt show network NETWORK REQUESTS Request 01 Node 01 Input 04 0018 Request 02 Node 01 Output 03 0001 Request 03 Node 02 Input 14 0001 70 Chapter 7 Programming VARIABLES ISACC allows you control over the information calculated in your C program With the keyword command SET VARIABLES you can set or alter the present value of any variable in your program To display values of variables in your C program type show variables after an ISACC prompt ISACC gt show variables PROGRAM VARIABLES rset 00000 galita 00000 galltb 00000 rate 00000 00000 00000 To change the values of your program variables type set variables after an ISACC prompt Press ENTER to go to the next parameter ISACC gt set variables PROGRAM VARIABLES rset 00000 5000
79. e optimum speed not recommended NOTE DO NOT RECONFIGURE THE SHUNTS AT LOCATION P10 ISACC s modem has a completely independent RS232 port that automatically configures itself The shunts at P10 are ONLY for local communication 2 Type in capital letters ATZ This will reset your terminal modem to recognize the new baud rate You are now ready to dial ISACC s phone number 3 Type in capital letters ATD followed by ISACC s phone number Or if you want to dial in touch tones type ATDT followed by ISACC s phone number For example ATD5555674 ATDT5555674 4 Your modem will call ISACC When it connects you will receive the message CON NECT on your terminal screen followed by the ISACC welcome screen You are now online and ready to begin programming and communication 30 Chapter 3 Communication Setup ISACC RS232 SPECIFICATIONS Start Stop protocol XON XOFF only Communications protocol 8 data bits no parity 1 stop bit DB25 socket configuration DCE female RS232 receptacle configuration refer to diagram below Pin 2 Received Data Receive Pin 3 Transmitted Data Send Pin 6 DSR Data Set Ready Pin 7 Ground 9 0 d0 O 9 e A ISACC s RS232 0825 Socket NETWORK WIRING ISACC units may be connected in a network using as few as two units and as many as 16 units The units are connected together using 2 conductor twisted pair cable Belde
80. e sent to us for servicing do the following 1 Turn the unit off unplug the AC power supply from the wall outlet and disconnect all input and output wiring 2 Carefully pack the unit into its original container or a sturdy shipping box Be certain to use sufficient cushioning material to avoid damage in transit 3 To avoid processing delays be sure to include the following a Your name address and phone number b The unit Model and Serial Numbers c A letter explaining ISACC s problem 4 Address package to SERVICE DEPARTMENT PHONETICS INC 901 TRYENS ROAD ASTON PA 19014 5 Ship prepaid and insured via UPS or US Mail to ensure a traceable shipment with recourse for damage or replacement 141 Sensaphone ISACC Instruction Manual 142 WARRANTY 1 YEAR LIMITED WARRANTY 1 WARRANTOR Dealer Distributor Manufacturer 2 ELEMENTS OF WARRANTY This Product is warranted to be free from defects in materials and craftsmanship with only the limitations and exclusions set out below 3 WARRANTY AND REMEDY One Year Warranty In the event that the Product does not conform to this warranty at any time during the time of one year from original purchase warrantor will repair the defect and return it to you at no charge This warranty shall terminate and be of no further effect at the time the Product is 1 damaged by extraneous cause such as fire water lightning etc or not maintained as reason able and necessary 2
81. e supplied cable DB 25 Whether you use a PC or a dumb terminal you may communicate with ISACC in two ways 1 Locally through the PC or terminal s RS232 port to ISACC s RS232 port or 2 remotely through a modem connected to the PC or terminal to ISACC s built in modem This chapter is divided into two sections 1 SETUP FOR PC and 2 SETUP FOR TERMI NAL Each section explains how to setup for local and remote communication with ISACC Refer to Appendix B for a diagram of the ISACC Board layout Included with your unit is a software program designed to be used with your ISACC Before using this program please read the ISACC MANAGER for Windows User s Manual within this binder 23 Sensaphone ISACC Instruction Manual SETUP FOR PC LOCAL COMMUNICATION THROUGH RS232 PORT To communicate locally using your PC you must first hook up and configure ISACC s RS232 port with your PC s RS232 port ISACC s RS232 port is positioned on the circuit board at location P4 next to the phone jack and is labelled RS232 PORT DCE Provided with ISACC is a Communication Hookup Kit that contains the following e Male DB25 plug to RJ11C Female DB25 socket to RJ11C Female 9 pin socket to RJ11C 10 feet of RS232 wire with male RJ11C on each end To connect your PC to ISACC s RS232 port do the following 1 Insert the male DB25 plug into ISACC s RS232 port 2 Insert one end of the RS232 wire into the male DB25 plug 3 Inse
82. e turned off main if is alarm 3 1 output 3 1 else output 3 0 95 Sensaphone ISACC Instruction Manual NETWORK Summary int network 11 12 int n1 Request number int n2 Command O turn off 1 turn on 2 return status Description The network function will read a value or write a value to one of the predetermined network requests specified by n1 If the network request is an output function then the value of n2 is the value sent to that output If the network request is an input function then n2 should have the value 2 For more information on the network requests see NETWORK command Chapter 7 page 72 Return value If n2 is 2 then the network function returns the present value of that network request Otherwise it will return the value of n2 Example This program will set network request number 2 for output 7 to 1 on if network request 1 value of input 4 if greater than 85 Otherwise it sets request 2 to 0 off In other words if input number 4 on node 2 is greater then 85 then output 7 on node 3 15 turned on Otherwise output 7 on node 3 is turned off This program assumes these network requests NETWORK REQUESTS Request 01 Node 02 Input 04 0082 Request 02 Node 03 Output 07 0000 main if network 1 2 gt 85 network 2 1 1 network 2 0 PROGRAMMING NOTE When using the NETWORK command be
83. en If you want ISACC to turn off the alarm clock you must first tell the unit how to recognize that it is ringing give it the command to turn it off when it recognizes that it is ringing otherwise do nothing To give ISACC this information you must translate English commands into C commands ISACC s built in compiler then translates the C commands into ISACC s language The C language structure is fairly simple Each program must have a beginning and an end Each individual statement within the program must open provide its information and then close Think of it as writing sentences without the proper sentence structure and punctua tion you will get syntax errors The reader ISACC will then not be able to receive the message or understand what to do The ISACC C facility is comprised of the following elements STRUCTURE To write a valid C program regardless of length you must follow its simple structural elements EDITING COMMANDS These commands allow you to begin writing edit list or delete a C program 77 Sensaphone ISACC Instruction Manual STAND ALONE COMMANDS These are one word commands that are basic to the execution of a C program These commands allow you to compile test start and stop a C program KEYWORDS These are short words or symbols that define variables or execute specific actions within a C program They include operators assignment comparators and comments PREDEFINED VARIABLES These are var
84. en this program is run the screen would look like this Hello there I am ISACC 3 In the C language numbers are stored in what are called variables A variable must be defined before the main function int x main x12 22 In this program we defined variable called x and set its value equal to 12 Here x is de fined as an integer ISACC s C language can define variables as integers or characters An integer can hold a value from 32768 to 32767 but a character can only hold a value from 128 to 127 Both characters and integers must be whole numbers NOTE Ifa value exceeds these limits the variable will still contain a number but it will not be the correct number For example var x contains the value 32767 Adding one to x will cause x to equal 32768 The following program will set y to 47 and x equal to 57 char y int x main 47 10 79 Sensaphone ISACC Instruction Manual In many of the examples in this chapter we use x and y as variable names The variable name can be up to 15 characters long Numbers can also be used as long as the name does not begin with a number In addition to letters and numbers the underscore character may be used in a variable name but it cannot be the first character of the variable name The following are valid variable names int average int outside temp int condition1 int contact12 The following are NOT valid
85. ephone line If the touch tone code is not received ISACC will respond by saying Have a good day The alarm is not acknowledged ISACC will continue calling the next phone number You may call the unit back using a touch tone telephone PC or terminal to acknowledge the alarm An alarm cannot be acknowledged using a pulse rotary telephone ALARM DIALOUT DATA MODE When ISACC dials to a PC or terminal using its internal modem it sends data information indicating the alarm condition Acknowledgment is requested at the end of the report You may also program ISACC to acknowledge on carrier when dialing out in data mode Example If acknowledge on carrier is selected as NO ISACC will display the following during a data mode alarm dialout ALARM DIALOUT The time is 11 52 25 PM the date is 12 29 93 Unit identification Sun Phone number of unit 555 5674 Reason for dialout INO2 HI SUMP FLOAT EXISTS Acknowledge alarms Y N gt Type to acknowledge alarm N to leave the alarm unacknowledged Enter your answer The following will then be displayed Stay online Y or N If you wish to stay online with ISACC to access programming and interrogate the unit type Y If you do not want to stay online with ISACC type N for NO If you left the alarm unac knowledged ISACC will then resume dialing the next phone number Example If acknowledge on carrier is selected as YES ISACC will display the foll
86. equipment may not be used on coin service provided by the telephone company Con nection to party lines is subject to state tariffs Should ISACC cause harm to the telephone network the telephone company may discontinue your service temporarily If possible they will notify you in advance But if advanced notice isn t practical you will be notified as soon as possible You will be informed of your right to file a complaint with the FCC The telephone company may make changes in its facilities equipment operations or procedures that could affect the proper functioning of your equip ment If they do you will be notified in advance to give you an opportunity to maintain uninterrupted telephone service If you experience trouble with this equipment please contact PHONETICS INC 901 Tryens Road Aston PA 19014 610 558 2700 Fax 610 558 0222 http www sensaphone com for information on obtaining service or repairs The telephone company may ask that you disconnect this equipment from the network until the problem has been corrected or until you are sure that the equipment is not malfunctioning PART 15 This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radi
87. er will display the current board temperature not air temperature in degrees Fahrenheit and degrees Celsius Battery level This parameter displays the present voltage of the backup battery rounded to the nearest whole number AC power status This parameter displays the status of the AC power NOTE You may use power outage as a system alarm by controlling it through a C program See Chapter 8 To display the current system information and global parameter values type show system at an ISACC prompt ISACC gt show system SYSTEM INFORMATION No unacknowledged alarms exist C program not running Data logger not running The temperature is 78 Deg F 25 Deg C Battery level is 21 V AC power is OFF Unit identification Snow Phone number of unit 555 4592 Data password 2387904 Network node 1 Rings until answer 3 Phone dialing 0 pulse l tone 1 Time between calls 0 Min 30 Sec Wait time between rounds 5 Min Maximum number of calls 3 55 Sensaphone ISACC Instruction Manual Voice alarm repetitions 4 On line time out minutes 4 Acknowledge on carrier YES To change the global parameters type set system after an ISACC prompt Enter new infor mation after the prompt gt Press ENTER to go to the next parameter ISACC gt set system SYSTEM INFORMATION Unit identification Snow gt Sun Phone number of unit 555 4592 gt 555 5674 Data password 2387904 gt 123999 Network node 1 gt
88. er counter 41 output counter 0 DO Used to execute a list of statements while a condition is true The statements are always executed at least once The following example always sets output 1 on and keeps it on as long as input 1 is greater than 100 Example main do output 1 1 while input 1 gt 100 WHILE Used to execute a list of statements while a condition is true The statements only executed if the condition is already true The following example only sets output 1 on when input 1 is greater than 100 and keeps it on until input 1 is less than or equal to 100 Example main while input 1 gt 100 output 1 1 87 Sensaphone ISACC Instruction Manual OPERATORS Symbols used to execute mathematical operations and determine whether a particular condition exists amp amp Adds two values Subtracts two values Multiplies two values Divides two values Produces whole number result Finds the remainder of a division Checks if one condition or another exists Checks if one condition and another exists ASSIGNMENT Symbol used to assign a numeric value Assigns a new value to a variable COMPARATORS Symbols used to compare numeric values to each other Less than Greater than Is equal to Is not equal to Less than or equal to Greater than or equal to COMMENTS Provide a format for you to make English notatio
89. er depth an ITYPE of 3 4 20mA will express the water level as a percentage However using a table with a low of 0 and a high of 10 the water level will be expressed in feet When you type SET TABLE ISACC prompts you to enter the high and low values that ISACC will use to calculate the table NOTE use a table the input type must be programmed as Analog Table 1 2 3 or 4 To display the current input table configuration and range type show table after an ISACC prompt You may also display a specific table by typing show table followed by the table number ISACC gt show table LOOK UP TABLE 0 0 5 Volt input 1 4 20mA input Table 1 low number 0000 Table 1 high number 1023 input 0 5 V Table 2 low number 0000 Table 2 high number 1023 input 0 5 V Table 3 low number 0000 Table 3 high number 1023 input 0 5 V Table 4 low number 0000 Table 4 high number 1023 input 0 5 V To configure the tables and set high and low values type set table after an ISACC prompt Enter a value and press ENTER to go to the next parameter You may also program a specific table by typing set table followed by the table number ISACC gt set table LOOK UP TABLE 0 0 5 Volt input 1 4 20mA input Table 1 low number 0000 gt Table 1 high number 1023 50800 input 0 5 V gt Table 2 low number 0000 gt Table 2 high number 1023 gt 2300 input 0 5 V gt 1 Table 3 low number 0000 gt Table 3 h
90. er supply terminal block Located on the board is a terminal block labeled POWER The power supply specification for ISACC 20 to 24 Volts AC 50 or 60 Hz This is applied through the two terminals labeled 24 AC You may use either an external AC power supply or an external DC power supply Follow the requirements and connection instructions below exactly so that problems and or damage do not occur Three manufacturers of AC transformers that are compatible with ISACC are Magnetek Triad F6 20 Thordarson FP 507 and Stancor 8661 CAUTION To avoid the danger of shock or damage to the unit only qualified personnel should wire and service the power supply AC supply requirements 1 The voltage range for powering ISACC is 20 to 24 VAC 2 The AC supply should be able to provide a minimum of 1 5 Amp at the required voltage AC supply connections 1 Wire the primary side of the 20 24 transformer to the 120 VAC supply 2 Wire the secondary side of the 20 24 VAC transformer to the terminals marked 24AC on the ISACC POWER terminal block 16 Chapter 2 Installation primary secondary Y 8 120 VAC dc du 8 supply 49 transformer E 2 Wiring power supply to ISACC DC supply requirements 1 The voltage range for powering ISACC is 24 to 28VDC If the voltage is lower than 24VDC the batt
91. eries will not fully charge If the voltage is over 28VDC excess heat will be generated in the power supply and components may fail 2 The DC supply should be able to provide a minimum of 1 5 Amp at the required voltage 3 The negative terminal on the DC supply must be either floating or connected to Earth Ground Ifit is not you will create a ground differential between ISACC your computer and your sensors that may seriously damage these devices 4 positive terminal should have a 1 5 Amp Slo Blo fuse in line between the supply and ISACC This is required because the fuse on the circuit board will be bypassed with the new wiring DC supply connections 1 Connect the negative wire from the DC supply to one of the common terminals on the POWER terminal block 2 Connect the positive wire from the DC supply with the in line fuse to the termi nal marked 24AC that is directly to the right of the EG terminal See diagram next page 15Amp 24 32VDC ERE power supply AOZ D 2 32 OD O O0 O0 O0 O O 0 0 0 0 0 0 2 AS D D AST o Wiring a DC power supply to ISACC 17 Sensaphone ISACC Instruction Manual GROUNDING ISACC ISACC should be earth grounded by connecting a true earth ground to the terminal labeled EG This is not essential for ISACC to operate but this will help protect against the possible effects of lightning strikes in
92. ert 2 INSERT LINES 002 gt new line lt RETURN gt 003 gt lt RETURN gt ISACC If line 002 already has text that text will be moved to line 003 82 Chapter 8 Programming DELETE The DELETE command will let you delete a specific line or number of lines of your program To delete a specific line of your program type DELETE followed by the line number For example ISACC gt delete 3 DELETE LINES ISACC gt The text on line 4 if any will be moved up to line 3 If you would like to delete a section of program for instance lines 12 through 35 type DE LETE spacebar 12 spacebar 35 ISACC gt delete 12 35 DELETE LINES ISACC gt ERASE The ERASE command is used to delete an entire C program at once Using this command eliminates having to delete a program by specifying line numbers when the whole program is to be erased To use this command type the word ERASE at the prompt For example ISACC gt erase LIST The command LIST allows you to view your program on the screen If you want to view all of your program enter LIST at a prompt To view a particular line within a program enter LIST spacebar line number For example ISACC gt list 4 To view a particular section of lines enter LIST spacebar starting line number spacebar ending line number ISACC gt list 14 35 At the bottom of your listed program ISACC will give you an update on bytes used and bytes remaining Remember there are
93. es no voice message Dialing mode 5 dial out through an external modem See Chapter 9 To display the current phone number dialing mode and label names type show phone after an ISACC prompt You may also display information for a specific phone number by typing show phone followed by the entry number 01 08 ISACC gt show phone DIALOUT PHONE NUMBER DIALING MODE AND LABEL NAME PHO1 Num Dialing mode Voice gt 1 PHO2 Num Dialing mode Voice gt Phone 2 Num Dialing mode Voice gt Name Phone 3 PHO4 Num Dialing mode Voice gt Name Phone 4 5 Num Dialing mode Voice gt Name Phone 5 PHO6 Num Dialing mode Voice gt Phone 6 PHO7 Num Dialing mode Voice gt Name Phone 7 PHO8 Num Dialing mode Voice gt Name Phone 8 To program the phone numbers dialing modes and assign label names type set phone after an ISACC prompt Enter values at the prompt and press ENTER to go to the next parameter You may also program information for a specific phone number by typing set phone followed by the entry number 01 08 ISACC gt set phone DIALOUT PHONE NUMBER DIALING MODE AND LABEL NAME Dialing codes P 2 second pause W wait for dial tone B wait for beeper tone A wait for beeper service to answer I send input numbers in alarm Dialing modes 0 for 300 bps data 1 fo
94. g the hour of 6 o clock 4 This example shows PUSH BUTTON RESET and SINGLE ALARM FOR POWER OUTAGE Note that the push button is an open close button attached to input 14 int i was alm step cncl ocncl main if input 20 0 0 Only if new power outage was_alm 1 alarm 15 if input 20 1 Power back on was_alm 0 cncl input 14 if cncl zocncl If push button changed state ocncl cencl if cncl 0 step 1 Push button reset if step 2 for 1 1 1 lt 17 1 1 1 enable 1 1 Enable all alarms step 0 if step 1 for 1 1 1 lt 17 1 1 1 enable i 0 Disable all alarms step 2 110 Chapter 8 Programming 5 This example demonstrates usage of the DATA LOGGER from within program This program will run the data logger when an input is alarmed int loggin main if exists 1 if Loggin 0 data 0 0 30 1 loggin 1 else if Loggin 1 data 0 0 30 0 loggin 0 Checks for an active alarm Checks to see if data logger already running If Do No If So not start the data logger not restart the logger until it has been turned off active alarms no alarms exist turn off data logger that it can be restarted next time 111 Sensaphone
95. h the unit and may begin programming and communication If you do not receive the ISACC welcome screen there are only two possible problems First the baud rates do not match Double check that the terminal and ISACC are set to be the same If you are sure that they are correct then you may need to add a null modem adaptor to the terminal REMOTE COMMUNICATION VIA MODEM To communicate with ISACC remotely you must have a Hayes compatible modem installed on your terminal ISACC must be connected to an analog phone line see Chapter 2 IN STALLATION Phone Line Installation 1 Go to your terminal setup screen Next you must set your terminal modem speed The calling modem in this case your terminal s establishes the baud rate of communication for the receiving modem ISACC If the calling modem communicates at a faster speed than the receiving modem can there will be no communication Therefore set your terminal modem rate to the fastest speed at which both the terminal modem and ISACC s modem can commu nicate For example If your terminal modem can communicate at 9600 bps it can also communicate at 2400 bps 1200 bps and 300 bps ISACC s modem is a 1200 bps modem it can communicate at 1200 bps and 300 bps Set the terminal modem calling modem to call ISACC at 1200 bps because this is the fastest that both can communicate If you were to set the terminal baud rate to 300 bps both will still communicate but not at th
96. iables that have specific predefined values that are automatically updated and cannot be changed by the user FUNCTIONS These are word commands that perform a predefined function within a C program ARRAYS This is a more advanced programming type that significantly shortens and simpli fies long programs ERROR HANDLING When a program is compiled it is scanned for language related errors An error message including the type of error is displayed This chapter provides basic instruction in the C language and gives all the commands that are valid for use with ISACC Sample programs are included If you have questions or problems please call for technical support at 610 558 2700 78 Chapter 8 Programming STRUCTURE Below are some examples that will help demonstrate the C language structure Refer to following pages for explanation of the keywords functions and commands used within the sample programs 1 All programs must begin with the main function It must be followed by an open brace and closed with an end brace This program is valid but will do nothing main 2 A statement is a line of programming code All statements are placed inside the braces f and end with a semicolon For example main puts Hello there n puts I am ISACC This program will print words Hello there and I am ISACC The n following Hello there means start a new line Wh
97. igh number 1023 gt input 0 5 V gt Table 4 low number 0000 gt Table 4 high number 1023 gt 0768 input 0 5 V gt 59 Sensaphone ISACC Instruction Manual LIMITS ISACC allows you to set high and low limits for inputs defined as 4 20mA analog 0 5V analog pulse count temperature table or user defined The limits are used to determine when an input is in alarm The command SET LIMITS prompts you to enter these values NOTE An input defined as N O or N C does not have a high or low limit ISACC will display N A for that input An input defined as pulse count can only have a high limit To display the current programmed limits type show limits after an ISACC prompt You may display a specific limit by typing show limits followed by the input number ISACC gt show limits HIGH AND LOW ANALOG LIMITS 101 LOW WELL FLOAT N A INO2 HI SUMP FLOAT N A INO3 Input 3 n N A INO4 FLOW RATE LOW 9999 HIGH 9999 INO5 WELL LEVEL FT LOW 9999 HIGH 9999 INO6 RESET 1407 Input 7 1408 VOLTAGE 9999 HIGH 9999 INO9 Input 9 1410 Input 10 IN11 Input 11 LEE N A IN12 Input 12 LES N A IN13 Input 13 1414 Input 14 1415 Input 15 LER N A 1416 Input 16 To program the low and high limits for analog or pulse count inputs type set l
98. imits after ISACC prompt Type a value and press ENTER to go to the next parameter You may pro gram a specific limit by typing set limits followed by the input number ISACC gt set limits HIGH AND LOW ANALOG LIMITS 1101 LOW WELL FLOAT N A INO2 HI SUMP FLOAT T 1403 Input 3 1104 FLOW RATE GPM LOW 9999 20001 HIGH 9999 0025 INO5 WELL LEVEL FT LOW 9999 20010 HIGH 9999 gt 0150 INO6 RESET 1407 Input 7 LET N A INO8 VOLTAGE Hou LOW 9999 20000 HIGH 9999 50110 INO9 Input 9 n N A IN10 Input 410 n N A IN11 Input 11 LEE N A 1412 Input 12 1413 Input 13 L N A IN i4 Input 14 1415 Input 15 LEE N A 1416 Input 16 LEZ N A 60 Chapter 7 Programming RECOGNITION The recognition time is the length of time that an alarm condition must exist continuously before ISACC will consider it a valid alarm and initiate a response This keyword allows you to program the recognition time for each input To display the currently programmed recognition times type show recognition after an ISACC prompt You may also display the recognition time for a specific input by typing show recognition followed by the input number ISACC gt show recognition INPUT RECOGNITION TIME 1 LOW WELL FLOAT 000 Min 003 Sec 1102 HI SUMP FLOAT 000 Min 003 Sec 1403 Input 3 000 Min 00
99. in the packaging will be a Warranty Registration Card Please take the time to fill this out and mail The Limited 1 Year Warranty is explained in the back of this manual CAUTION ISACC is a sensitive electronic device Personnel and work area should be grounded before handling this device Do not install ISACC near strong electrostatic electro magnetic magnetic or radioactive fields i e generators huge motors pumps or turbines Do not attach the power supply cord to building surfaces GROUNDING WRIST STRAP Enclosed with the product is a Disposable Grounding Wrist Strap It is provided to help control and prevent the possibility of damage due to static electricity To use the grounding wrist strap unwrap the strap to expose the adhesive Wrap this end around your wrist Unwrap the rest of the strap and peel the liner away from the copper foil located at the opposite end Attach the copper foil to the steel back panel in the ISACC enclosure NOTE The grounding wrist strap is for static control It will not reduce or increase the risk of receiving electrical shock 11 Sensaphone ISACC Instruction Manual OPERATING ENVIRONMENT ISACC should be mounted and operated in a clean dry environment If this is not possible NEMA 4 conduit hubs should be installed to seal ISACC off from the hazardous environment The temperature range that ISACC can operate in is 32 F to 120 F 0 C to 4990 MOUNTING ISACC When you receive ISACC
100. is configuration allows a thermistor dry contact N C or N O or pulse counting sensor to be wired to the input You may use either a 2 8K ther mistor or a 10K thermistor with ISACC 12 4 20mA Thermistor dry contact or pulse count configuration 4 20mA position This configuration connects the input signal to a 249 Ohm load resistor This allows ISACC to measure the current at the input Any sensor that puts out 4 20mA can be wired to this input 212 4 20mA 4 20mA configuration 0 5V NO SHUNT position This configuration connects the input signal directly to ISACC s analog to digital converter for measuring the output of 0 to 5 volt transducers Any sensor that puts out 0 5V can be wired to this input P12 l TEMP 4 20mA 0 5 Volt configuration CAUTION Wiring sensors with shunts in the incorrect position could result in damage to the unit 34 Chapter 4 Inputs INPUT TERMINAL BLOCK On the circuit board each input terminal is located on the double row terminal block labeled INPUTS The bottom row is the positive input terminal and the top row is the common terminal All commons are the same and are internally connected See diagram below INPUTS O O O O O O O O O O O O O O O 0 lt Commons O O O O O O O O O O O O O O O Input terminal screws 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Input terminal block NOTE
101. it is parallel to the ISACC circuit board with the LED side closest to the circuit board 3 Plug the ribbon cable card edge connector to the rack with the red stripe at pin 1 4 Insert the socket connector into the 26 pin DIP header at location P14 on the ISACC circuit board with the red stripe at pin 1 See diagram below 8 module rack ISACC circuit board Solid state output modules Socket connector plugged into P14 8o on ISACC circuit 8 ws oe e 5 d oari Ox ao T iE o e o i k X H P S ARS 3 al O gl o Red stripe o EB AC output O Mounting hole gt Card edge connector _ gt Ribbon cable Installing the 8 module rack with ISACC To wire a DC device to the 8 module rack using an ISACC power supply 1 Wire the ground terminal on the DC device to a common on the ISACC POWER supply terminal block 2 Wire the positive terminal on the DC device to an even numbered terminal on the 8 module rack 3 Wire an odd numbered terminal on the 8 module rack to a power terminal 5V 12V 15 or 20V depending on your application on the ISACC POWER supply terminal block 46 Chapter 5 Outputs 4 When using more than one DC device you may wire all the device ground termi nals together and wire the odd numbered terminals on the 8 module rack together if all the DC devices require the same voltage
102. ite end Attach the copper foil to an earth grounded object NOTE The grounding wrist strap is for static control It will not reduce or increase the risk of receiving electrical shock OPERATING ENVIRONMENT ISACC should be mounted and operated in a clean dry environment The recommended temperature range that ISACC should operate in is 32 F to 120 F 0 to 4990 MOUNTING ISACC When you receive ISACC there will be a PC Board ISACC an instruction manual and a Mounting Hardware Kit Inside the Mounting Hardware Kit are the following 4 Hollow Nylon Spacers e 4 8 32 Machine Screws 4 8 Wood Screws 4 Nylon Washers 4 8 32 Hex Nuts Carefully remove ISACC from the bubble pack Decide where you will be mounting ISACC and drill holes according to the diagram on the next page The circuit board dimensions are 8 by 11 15 Sensaphone ISACC Instruction Manual lt 7 9 gt a phone Y receptacle RS232 port Mounting ISACC circuit board After the holes have been drilled mount the board with the hardware provided Use a nylon washer between the board and the screw and a nylon spacer between the board and mounting surface Both wood screws and machine screws have been provided for your convenience POWERING ISACC IMPORTANT Before applying power to ISACC the ON OFF switch must be in the OFF position The ON OFF switch is located to the right of the acrylic panel below the pow
103. lay the current log programming and data log status type show logging after an ISACC prompt ISACC gt show logging DATA LOGGING Time between logs 0 Hrs 0 Min 00 Sec Enable data logger NO 0 records used 512 records available To program and enable the data logger type set logging after an ISACC prompt Enter values after the prompt gt and press ENTER to go to the next parameter ISACC gt set logging DATA LOGGING Time between logs 0 Hrs 0 Min 00 Sec Enable data logger YES Reset data logger 0 records used 512 records available Y or N gt Y Y or N gt Y New hrs gt 1 New min gt 30 New sec gt 45 69 Sensaphone ISACC Instruction Manual NETWORK ISACC can communicate with other ISACC units without telephone lines through a net work After the network is set up you must tell each ISACC unit the information it will have access to from another unit See Chapter 3 for information on setting up the network This predetermined information exchange is called an Information Network Request The key word command SET NETWORK allows you to program an Information Network Request Each ISACC unit can make a total of 60 requests for input output information However all units cannot request information at the same time Therefore the Master unit controls all information exchange An ISACC unit is identified as the Master by programming its network node number as 0 zero See keyword SYSTEM Note Each piec
104. low is a pin out of the digital outputs DIP connector Common 26 25 5V Common 24 23 Output 1 Common 22 21 Output 2 Common 20 19 Output 3 Common 18 17 Output 4 Common 16 15 Output 5 Common 14 13 Output 6 Common 12 11 Output 7 Common 10 9 Output 8 7 N C Common 5 N C Common 4 3 N C Common 2 1 12V P14 26 pin DIP header at P14 47 Sensaphone ISACC Instruction Manual High Power Solid State Relay The 25 Amp high power solid state relay FGD 0020 is available from Phonetics See Appendix D for accessory information The ISACC enclosure is predrilled to mount as many as 8 high power solid state relays using two 6 32 machine screws See Appendix C for mounting diagrams NOTE Do not use a high power solid state relay when a lower power relay will be suffi cient Solid state relays require a certain minimum current to switch see page 54 for solid state relay specifications If a lower power relay is sufficient to switch the required cur rent but you have a high power relay wired the output may not switch Likewise a certain amount of leakage current also occurs With a high power relay this could be sufficient to cause unintended switching of an output To use a high power solid state relay 1 Mount the relay in the ISACC enclosure so that terminals 3 and 4 are closest to the ISACC circuit board 2 Wire terminal 3 on the
105. low the power supply terminal block ISACC is pre wired with a three prong cord that can be plugged into any 117VAC outlet The power supply specification for the ISACC circuit board is 20 to 24 Volts AC 50 or 60 Hz This is applied through the two terminals labeled 24 AC ISACC is earth grounded This is done to help protect it from the possible effects of lightning strikes in or around the immediate area A wire is connected from the terminal labeled EG to the third leg of the power cord The steel panel on the bottom of the enclosure is also connected to earth ground for safety ADDITIONAL SURGE PROTECTION It is recommended that additional surge protection be obtained for the power and telephone lines particularly if ISACC will be installed in a lightning prone area Additional surge protection is available through Phonetics Contact the Sales Department for details BACKUP BATTERY ISACC has three 6VDC rechargeable batteries wired in series The total backup battery voltage is 18VDC and offers a minimum of 3 5 hours and a maximum of 15 hours backup time The actual battery performance is dependent upon what external devices are wired to the 5V 12V 15V and 20V power supplies If ISACC is not powering any external devices backup time will be 15 hours When the battery is configured for recharge ISACC supplies a constant charge of 20 4VDC when main power is present To recharge the battery backup go to the SIP header at location P11 o
106. lue The reset function always returns a zero Example If input 7 is a pulse counting input this program will initiate an alarm 7 condition if input 7 is greater than 100 and reset the counter to zero main if input 7 gt 100 reset 7 alarm 7 100 Chapter 8 Programming RELOAD Summary int reload Description The reload function returns the reload rate in seconds of the C program There are no parameters Return value The reload rate in seconds of the C program Example This program will use the reload rate to update a seconds down timer When the timer hits zero it will turn output number 1 on main rate reload if timer gt 0 timer timer rate if timer lt 0 output 1 1 else output 1 0 101 Sensaphone ISACC Instruction Manual SET_INPUT Summary int set _input n1 n2 int n1 Input number int n2 New value of input Description The set input function will allow you to manually set the input value for any of the 16 input channels This is useful to get a average or some other calculated value to appear on an input channel That value is then treated as any other analog input for alarm functionality and also appears in the data logger To do this you must first set the input type for that input to USER DEFINED See command Chapter 7 Return value The set input function returns n2
107. m using its internally resident vocabulary To acknowledge the alarm you must use a touch tone telephone to enter the acknowledgment code at the end of the alarm call You may also call the unit back using a touch tone telephone to enter the acknowledgment code Example An alarm occurs on input 2 and meets the recognition time ISACC begins the dialout sequence Phone 1 is programmed as voice When the phone is answered ISACC will identify itself by reciting its programmed phone number It will then state the input in alarm This message is repeated the 3 times programmed number of voice repetitions ISACC will then request the touch tone acknowledgment code 555 When the touch tones are received ISACC will respond by saying OK and then disconnect from the line NOTE The alarm is acknowledged but not cleared The condition will continue to exist until some action is taken to correct the situation Below is what ISACC says in the above example Hello this is telephone number 555 1234 Number 2 exists Hello this is telephone number 555 1234 Number 2 exists Hello this is telephone number 555 1234 Number 2 exists Indicate you have received warning message You have 15 seconds to enter the acknowledgment code 555 on the touch tone phone When the touch tones are received ISACC will respond by saying OK 115 Sensaphone ISACC Instruction Manual The alarm has been acknowledged and the unit will then disconnect from the tel
108. mber of the input ISACC gt show itype H NPUT TYPE 1401 is now INO2 is now 1403 is now NO4 is now N05 is now NO6 is now NO7 is now NO8 is now NO9 is now N10 is now N11 is now N12 is now N13 is now Ho HH HH HH HH Digital Digital Digital Digital Digital Digital Digital Digital Digital Digital Digital Digital Digital Name I Name I Name I Name I Name I Name I Name I Name I Name I Name I Name I Name I Name I nput 1 nput 2 nput 3 nput 4 nput 5 nput 6 nput 7 nput 8 nput 9 nput 10 nput 11 nput 12 nput 13 57 Sensaphone ISACC Instruction Manual IN14 is now Digital N O IN15 is now Digital N O IN16 is now Digital N O Name Name Name Input 414 Input 15 Input 16 To configure the input type and assign a descriptive name type set itype after an ISACC prompt Enter the type number to change the input type and press ENTER to get to the name parameter Enter an input name The name may be up to 16 characters Press ENTER to go to the next input You may program a specific itype by typing set itype followed by the input number ISACC 2set itype INPUT TYPE 00 Digital N C 4 20mA 04 2 8K C 07 03 Analog 06 Analog 09 Analog 12 Analog INO1 is INO2 is is N04 is NO5 is NO6 is NO7 is is NO
109. ms that transmit at 9600 bps can be used through the serial port The second is that you may need to use a modem with error checking capability If you have poor phone service or are using a cellular phone service considerable noise may be generated over the phone line that may prevent data from being transferred An external modem with error checking capability will solve this problem NOTE If you use an error checking modem for this purpose you must 118 Chapter 9 Operation also have an error checking modem for your PC or terminal To install the external modem 1 Power up and set the modem according to the manufacturer s instructions 2 Connect the external modem to ISACC s RS232 serial port 3 Connect the phone line This can be done one of two ways a Hook up the phone line directly to the external modem If you do this you cannot use dialing modes 0 4 see Chapter 7 Also you cannot call into ISACC for a voice mode status report ISACC will only have access to the phone line through the external modem b Split the phone line Hook one wire to the external modem Hook the other wire to ISACC This set up will allow you to use all dialing modes NOTE When calling in to ISACC with the split phone line the external modem will answer first To bypass the external modem hang up and call back On the second call you will access ISACC s phone interface 4 Program one or more of ISACC s dialout phone numbers to dialing mode 5
110. n 9841 or equivalent to the networking terminal block also called a port labelled RS485 The 2 position RS485 terminal block is positioned next to the RJ11 phone jack on the circuit board See below OFF ON 9 5485 RS485 networking port 31 Sensaphone ISACC Instruction Manual ISACC units are networked by connecting the A terminals together and the B terminals together Next it is necessary to enable a termination on the two units that are located far thest apart This termination is located at pin header P9 located directly above the RS485 terminal block To enable termination move the two black jumpers from the off position to the on position If only two ISACC units are being networked enable both See the follow ing diagram node 1 node 3 AB AB node 0 4 2 Termination Termination ON ON node 2 Five ISACC units networked After the units are networked you must determine the node number for each unit This must be done so that the each unit is identified in the network The master unit is identified as 0 zero See Chapter 7 PROGRAMMING System for information on how to program the network node number See Chapter 7 PROGRAMMING Network for information on how to make a network request See Chapter 8 C PROGRAMMING for information on how to use network information in C programming
111. n ISACC char int if else for do while operators assignment comparators comments functions CHAR used to define a variable as a character A character can hold a value from 128 to 127 and must be a whole number Exceeding this range will cause incorrect results Example char x main 12 INT used to define variable as an integer An integer can hold a value from 32 768 to 32 767 and must be a whole number Exceeding this range will cause incorrect results Example int result main result 17 IF Used to make decisions Example main if input 1 gt 7 puts One is bigger n 86 Chapter 8 Programming ELSE Used with IF to execute a statement when the IF condition is false Example main if input 2 gt 100 puts It is hot n 1 is cold n FOR Used to execute a statement statements multiple times Contains a start condition a stop condition and a control statement The following example starts a counter at one checks that it is less than nine and executes the output statement Then it adds one to the counter and checks that it is still less than nine When the counter equals nine the for loop is finished This program example sets outputs 1 through 8 off Example int counter main for counter 1 counter 9 count
112. n or near a heat source such as a radiator or heat register Be certain that your power source matches the rating listed in the AC power require ments of this manual If you re not sure of the type of power supply to your facility consult your dealer or local power company Do not allow anything to rest on the power cord Do not locate this product where the cord will be abused by persons walking on it Do not overload wall outlets and extension cords as this can result in the risk of fire or electric shock Never push objects of any kind into this product through ventilation holes as they may touch dangerous voltage points or short out parts that could result in a risk of fire or electric shock To reduce the risk of electric shock do not disassemble this product but return it to Phonetics Customer Service or other approved repair facility when any service or repair work is required Opening or removing covers may expose you to dangerous voltages or other risks Incorrect reassembly can cause electric shock when the unit is subsequently used If anything happens to indicate that your ISACC is not working properly or has been damaged unplug it immediately and follow the procedures in Appendix E for having it ser viced Return the unit for servicing under the following conditions 1 The power cord plug is frayed or damaged 2 Liquid has been spilled into the product or it has been exposed to water 3 The unit has been d
113. n the PC board P11 is located between the power supply terminal block and the ON OFF switch Using needlenose pliers move the shunt to the recharge position See diagram below RECHARGE 11 Battery configured for recharge NOTE Have battery serviced by qualified service personnel only 13 Sensaphone ISACC Instruction Manual LITHIUM BATTERY The lithium battery provides backup to the RAM and to the real time clock it s function is to retain the time and programming if the power fails and backup battery is exhausted On the circuit board the lithium battery is located under the acrylic safety panel on the right side To activate the battery pull the paper strip out of the battery clip The lithium battery is a CR2430 3 Volts 270 mAhr It will provide battery backup for approximately 2 years Note The lithium battery will not keep ISACC operational TURNING ISACC ON Now that ISACC has power the ON OFF switch may be turned on The ON OFF switch is located on the right side of the circuit board below the power supply terminal block ISACC s buzzer will sound briefly The power LED will come on and be constant and the pulse LED will blink steadily The phone LED will not be lit When the unit is turned off it is disabled Programming parameters are retained by the 3V lithium battery In the off position the 3V lithium battery is in use however 18V battery backup is
114. nalog output terminal block On board relay output terminal block Communications speed configuration pins Input configuration pins DIP connector for input module ribbon cable Input commons Input terminal screws Appendix C Board Layout ON ON Pa AS D TI Z E S 9 L 8 ov 2 AS AZT D AST 2 AOZ INS Vt ANTAN O O O O O O O O O O O O O O O O O O O O O O O O O SLOdLNO TITE Ep Di m ON OFF RECHARGE em wnoz v P9 O O O O O O O O O O O O O O O O Te 12 5 6 7 91011 12 13 14 15 16 B Rs485 PHONE RS232 PORT DCE RS485 port for networking RJ11C phone jack Digital output terminal block Power supply terminal block DIP connector for output module ribbon cable Battery recharge pin ON OFF switch Acrylic safety panel Reset button Termination pin header for networking RS232 port for local communication 131 Sensaphone ISACC Instruction Manual 132 Appendix Mo
115. nction is stated then a summary is given The summary is how the function is internally defined The return value is the value of the function after performing what has been programmed Some of the functions do not have a return value that would apply In these cases the return value will be zero The functions for use with ISACC are ALARM DATA ENABLE INPUT IS ALARM NETWORK OUTPUT OUT SPEC PUTNUM PUTS RESET RELOAD SET INPUT 91 Sensaphone ISACC Instruction Manual ALARM Summary int alarm n int n Input Number Description The alarm function generates an alarm condition for the input specified by n Return value The alarm function always returns a zero Example This program will initiate an alarm 3 condition if input 3 is greater than 100 and input 2 is greater than 90 main if input 3 gt 100 input 2 gt 90 alarm 3 NOTE The Phone numbers Selection and Dialout in the standard programming parameters must be set up properly to generate an alarm or nothing will happen DATA Summary int data n1 n2 n3 n4 int n1 Number of hours int n2 Number of minutes int n3 Number of seconds int n4 Start or stop O stop 1 start Description The data function enables or disables the data logger and specifies how often the data logger executes Return value The data function always returns a zero Example This program will run the data logger
116. ng in no time ISACC also offers the ability to create your own programs in the C language It is resident within the unit and is easy to use LEARNING TO USE ISACC Reading this manual will help you become familiar with ISACC and its programming This will enable you to use the unit to its fullest potential As you read this manual consider your specific installation and application If there are any questions or problems contact PHONETICS INC 901 Tryens Road Aston PA 19014 610 558 2700 Fax 610 558 0222 www sensaphone com ABOUT THE MANUAL The ISACC Instruction Manual is composed of the instructions you need to use ISACC You should thoroughly read the manual to establish a basic understanding of the system and keep it as a reference Sensaphon ISACC Instruction Manual IMPORTANT Phonetics now includes a software package to work with ISACC using the Windows operating system it 15 called ISACC MANAGER for Windows and it will work with Windows 3 x 95 and NT This software makes ISACC even easier to use and even more powerful Some of ISACC MANAGER features include AUTOMATIC POLLING ISACCs can be polled on a programmable schedule to retrieve the data logger INFORMATION MANAGEMENT The PC can store and maintain all programming information data logger activity and alarm activity for one or more ISACCs ON LINE HELP All programming screens feature on line help to provide information that is pertinent
117. nged KEYWORDS There are two main components of a keyword command the command prefix words SET or SHOW followed by the KEYWORD SET allows you to make a change in a parameter SHOW lists the current values of the parameter The KEYWORDS represent all the system and programming parameters They are SYSTEM RECOGNITION SELECTION CLOCK ALARMS VOICE INPUTS DIALOUT LOGGING ITYPE OUTPUTS NETWORK TABLE ONAME VARIABLES LIMITS PHONE The format for using a keyword command is the following ISACC gt SET KEYWORD ISACC gt SHOW KEYWORD You may abbreviate the prefix and the keyword by using only the first three letters of each word For example the command show system may also be typed as sho sys The command set system may be typed as set sys This applies for all the keyword com mands You may specify which item you want to program or interrogate for certain input output and phone parameters do this type set or show followed by the keyword and the number of the input output or phone For example to show the programming for phone number 3 type ISACC gt show phone 3 DIALOUT PHONE NUMBER DIALING MODE AND LABEL NAME PHO3 Num Dialing mode Voice gt Name Phone 3 53 Sensaphone ISACC Instruction Manual SYSTEM This keyword allows you access to the global system parameters including Unit identification You may assign a name to the ISACC unit for identification The name may be up to
118. ns within a program 88 Begin comment End comment Chapter 8 Programming PREDEFINED VARIABLES ISACC s C language has a number of variables that are predefined These variables are auto matically updated with the proper information outside of the C program and cannot be user changed They include MONTH EXISTS DAY UPTIME YEAR HOURS MINUTES SECONDS MONTH DAY YEAR HOURS MINUTES amp SECONDS These variables represent the values from the real time clock They are defined as integer type Their internal definitions look like the following int month int day int year int hours int minutes int seconds Note You do not need to define these at the beginning of your program to use them Description MONTH Holds the present value from 1 to 12 DAY Holds the present value from 1 to 31 YEAR Holds the present value from 0 to 99 representing only the last two digits of the year HOURS Holds the present value in 24 hour time from 0 to 23 MINUTES and SECONDS Hold the present values from 0 to 59 EXAMPLE This program will reset the minimum and maximum values for input 12 at midnight main if hours 23 amp amp minutes 59 reset 12 EXISTS amp UPTIME These are predefined variables specifically for use with ISACC EXISTS The alarm status of ISACC is represented by this variable When any alarm exists that has not been acknowledged the EX
119. o frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense 20 Chapter 2 Installation CANADIAN DEPARTMENT OF COMMUNICATIONS NOTICE The Canadian Department of Communications label identifies certified equipment This certification means that the equipment meets certain telecommunications network protective operational and safety requirements The Department does not guarantee the equipment will operate to the user s satisfaction Before installing this equipment users should ensure that it is permissible to be connected to the facilities of the local telecommunications company The equipment must also be installed using an acceptable method of connection In some cases the company s inside wiring associated with a single line individual service may be extended by means of a certified con nector assembly telephone extension cord The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations Repairs to certified equipment should be made by an authorized Canadian maintenance facility designated by the supplier Any repairs or alterations made by the user to this equip ment or equipment malfunctions may give
120. on Manual EDITING COMMANDS The commands used to edit your program are INSERT DELETE ERASE and LIST These commands allow you to insert and delete lines within a new or already existing program When an existing line needs to be modified the DELETE command is used to erase that line and the INSERT command is used to retype the line The ERASE command eliminates an entire C program at once The LIST command allows you to view the program on the screen ISACC s editor is a line editor You can only make changes to the current line INSERT To begin your program enter INSERT at a prompt ISACC will prompt you to type in the first line of your program by displaying the following ISACC gt insert INSERT LINES 001 gt After you are done typing the text for each line press RETURN and the cursor will move to the next line Ifa lt RETURN is pressed on a line with no text ISACC will return you to a prompt outside of the text editor Example ISACC gt insert INSERT LINES 001 gt this is a c program lt RETURN gt 002 gt lt RETURN gt ISACC gt To add a line at a particular line number within your already existing program type INSERT spacebar line number Using the example above if you want to add a line at line 2 type INSERT 2 ISACC will display the following prompting you to type in the text for that line and as many more as you want To stop inserting lines press RETURN line with no text ISACC gt ins
121. on when installing or modifying tele phone lines 14 Chapter 2 Installation BOARD LEVEL INSTALLATION FGD 5100 This section explains the unpacking and installation of a board level ISACC For installation instructions of a complete package ISACC FGD 5000 turn to page 11 It is important that this chapter be read and followed very carefully before operating ISACC UNPACKING ISACC ISACC is shipped in specially designed packaging to eliminate damage during shipment When unpacking the unit be careful not to damage the equipment or the box It is recom mended that the packaging be retained for future use Within the packaging will be a Warranty Registration Card Please take the time to fill this out and mail The Limited 1 Year Warranty is explained in the back of this manual CAUTION ISACC is a sensitive electronic device Personnel and work area should be grounded before handling this device Do not install ISACC near strong electrostatic electro magnetic magnetic or radioactive fields Do not attach the power supply cord to building surfaces GROUNDING WRIST STRAP Enclosed with the product is a Disposable Grounding Wrist Strap It is provided to help control and prevent the possibility of damage due to static electricity To use the grounding strap unwrap the strap to expose the adhesive Wrap the adhesive around your wrist Unwrap the rest of the strap and peel the liner away from the copper foil located at the oppos
122. one ISACC Instruction Manual POWER 2 Power supply terminal block 4 20mA sensor o 0 0 0 0 0 0 0 0 0 0 0 EG 24 24 RAT C 20V C 18V C 12V C SV C AC Wire to 15V power supply ai i Input terminal pair 4 20mA sensor using internal power supply 4 20mA externally powered To use an external power supply wire the positive lead from the sensor to the positive terminal on the external power source Wire the negative lead from the sensor to a numbered input screw on ISACC Next connect the power supply to ISACC by wiring the negative terminal on the power supply to a common screw on ISACC See diagram below External power source N 4 20mA sensor N Input terminal pair 4 20mA sensor using external power source 0 5V sensor To use a 0 5V sensor with ISACC wire the sensor signal lead to a numbered input terminal screw on the unit Then wire the sensor common to the corresponding com mon screw on ISACC See diagram below Common S E Input terminal pair Signal 0 5V sensor SHIELDED WIRE ISACC is designed to work in most installations without the need of shielded wire This does not apply to wire run in conduit that has other noise generating conductors such as 60Hz AC 36 Chapter 4 Inputs It is strongly recommended that input wiring be run in a conduit separated from AC power or output wiring When wire runs are long or are in close proximity to
123. onnector at location P13 located adjacent to the input terminal block The signals at the DIP header are internally connected to the input terminal block Configure all input shunts to the TEMP position IMPORTANT The 16 module rack is used in lieu of the input terminal block both cannot be used at the same time When using a 16 module I O rack all 16 inputs are dedicated to using input modules If a smaller number of input modules are needed use a smaller rack and hardwire the rack to the input block To use the 16 module rack 1 Connect the ribbon cable between the 16 module rack and the DIP connector on ISACC Make sure that pin 1 on the rack connects to pin 1 on the DIP header 2 Install the jumper wire at the card edge pad 49 on the rack or connect the positive terminal on the rack s 2 position terminal strip to 5V on the ISACC POWER terminal block 16 module rack ISACC circuit board Solid state output modules Input terminal 5 tb d Socket connector DC input cannot be use with the 16 4o plugged into P13 module rack 212 ISACC circuit o board 91 SL G vL DC input G L 210 16 SINANI DC input DC input 6 AC input L G 9 AC input G S G AC input 8 O O O O 0 01234567 Red stripe
124. or pulse or 1 for tone the default 1s tone Time between calls This parameter is the length of time that ISACC will wait between phone calls before dialing the next phone number on the list The time between calls may be programmed from 5 seconds to 270 minutes the default is 30 seconds Wait time between rounds This parameter allows you to program the time ISACC will wait before it resumes calling from the top of the phone list after it finishes a round The wait time may be programmed from 1 minute to 270 minutes the default is 5 minutes Maximum number of calls This parameter determines the maximum number of calls ISACC will make if the unit does not receive acknowledgment The maximum number of calls may be programmed from 0 to 9999 the default is 16 If ISACC reaches the maximum number it will self acknowledge the alarm s and cease the dialout NOTE If you program the maximum number of calls to 0 zero ISACC WILL NOT DIAL OUT If only one phone number is programmed ISACC will dialout a maximum of 15 times to report an alarm Voice alarm repetitions This parameter allows you to program how many times ISACC will repeat the alarm message during an alarm dialout phone call before requesting acknowl edgment The number of repetitions of the alarm message may be from 1 to 255 for each phone call the default is 3 repetitions NOTE If the voice alarm repetitions is programmed to zero ISACC will not recite the alarm message
125. owing during a data mode alarm dialout ALARM DIALOUT The time is 11 52 25 PM the date is 12 29 93 Unit identification Sun Phone number of unit 555 5674 Reason for dialout INO2 HI SUMP FLOAT EXISTS Stay online or If you type Y for YES ISACC will allow you to stay online to program and interrogate If you type N for NO ISACC will hang up and your PC or terminal will lose the carrier In either case the alarm is acknowledged 116 Chapter 9 Operation ALARM DIALOUT BEEPER When dialing to a beeper you can program ISACC to send digits that identify itself and the input in alarm See Chapter 7 Dialing Codes You must acknowledge the alarm by calling the unit back using a touch tone telephone PC or terminal CALL PROGRESS VOICE OR BEEPER MODE ISACC monitors call progress when dialing out in voice or beeper mode If ISACC encounters a busy signal or no answer the unit hangs up waits the programmed intercall wait time and then dials the next phone number DATA MODE When ISACC dials out in data mode it does not monitor call progress but waits 30 seconds for a carrier The timer starts when it dials the last digit of the phone num ber If ISACC does not receive a carrier within 30 seconds of dialing it will hang up wait the programmed intercall wait time and then dial the next phone number STATUS REPORT VOICE MODE You can call into ISACC using a touch tone telephone to obtain a status re
126. port After answer ing ISACC will attempt to make a data connection If none is made ISACC will recite a status report in voice synthesized English The information recited in the status report is user selected Following the voice status report ISACC allows you to turn on or off an output remotely See below Example Using the sample information programmed in Chapter 7 ISACC would recite the following during a voice status report Hello this is telephone number 555 5674 The electricity is ON INPUTS Number one 1 Number two 1 Number three 1 Number four 799 Number five 2300 Number six 1 Number eight 794 OUTPUTS Number one Off Number two Off Number three Number nine Off Number eleven 20 117 Sensaphone ISACC Instruction Manual VOICE MODE OUTPUT CONTROL Following the voice status report ISACC allows you to turn on or off one of the digital outputs 1 10 using a touch tone telephone At the end of the report you have 5 seconds to enter a touch tone command To switch an output 1 Using the touch tone phone keypad enter the number of the output you want to manipulate 1 2 3 4 5 6 7 8 9 or 0 for 10 within 5 seconds 2 turn the output on press 1 3 turn the output off press 0 4 ISACC will say OK 5 ISACC will wait 5 seconds for another command To manipulate another output repeat above steps 6 If ISACC does not receive a command within 5 seconds the unit will s
127. power 1 on 0 off Return value The input function returns the present value of an input specified by n1 This will be the appropriate look up table value if the input is analog If the input is a dry contact an open condition will return a 1 and a closed condition will return a zero Example This program will generate an alarm condition if input 12 is greater than 100 It will also generate alarm condition 13 if AC power fails Please note that for input 13 to alarm as power failure the ITYPE must be set to USER DEFINED see ITYPE section and the low alarm limit set to 90 main if input 12 gt 100 alarm 12 set_input 13 input 20 110 94 Chapter 8 Programming 15 Summary int is alarm n int n Input number Description The is alarm function checks if there is an active dialout alarm on the input specified by n This follows the unacknowledged status on the alarm so after the alarm is ac knowledged by someone it 15 no longer considered an alarm even if the physical condition is still there Return value The is alarm function returns a zero if there in no alarm on input n or a 1 if there is an alarm Example This program will set output number 3 on if input 3 is alarming Otherwise it sets output 3 off When input 3 goes into alarm status the output will be turned on As soon as that alarm is acknowledged by someone the output will b
128. quivalent of turning ISACC off then on again There is no loss of programming information 75 Sensaphone ISACC Instruction Manual 76 Chapter 8 Programming 8 PROGRAMMING Resident within ISACC compiler The purpose of putting compiler within ISACC is to offer remote programmability and flexibility With a C program running ISACC can perform logical input and output control and computation SPECIFICATIONS The maximum size of your program can be 2K of compiled space 8191 characters or 500 lines whichever comes first You can define up to 127 variables in addition to those built in and the names of the variables can be up to 15 characters A C program may be executed a maximum of once per second It will continue to run until you halt it ABOUT THE C LANGUAGE C is a structured programming language that is similar to other structured languages like Pascal for those of you who are familiar with it For those who arent do not be frightened off by the following list of structural elements The most important part of C is the structure not remembering all the names for its elements The structure of C is like asking a question or posing a problem and then going through the simple steps of information gathering and action to solve the problem For example if your alarm clock is ringing and you want it to stop ringing you must hit the OFF button to turn it off otherwise nothing will happ
129. r 1200 bps data 65 Sensaphone ISACC Instruction Manual 3 for Voice 4 for Beeper 5 for External Modem PHO1 Num gt 140785461425123456789 1 Dialing mode Voice gt 4 Name Phone 1 gt 1 Beeper PHO2 Num gt 16105551290 Dialing mode Voice gt Phone 2 gt DIF phone PHO3 Num gt 12035554044 Dialing mode Voice gt 3 gt 1 4 Num gt 12155559854 Dialing mode Voice gt 1 4 gt Manager 5 gt 5554538 Dialing mode Voice y gt 1 Name Phone 5 gt Weaver gt 5559605 Dialing mode Voice gt 1 Name Phone 6 gt J Hogan 7 Num gt 17175556886 Dialing mode Voice gt 1 Name Phone 7 SA Daniels PHO8 Num gt 16035556453 Dialing mode Voice gt 0 Name Phone 8 gt M Otto DIALING CODES Sometimes ISACC may need special instructions when dialing out on certain phone systems long distance phone services to access an outside phone line or to beepers The dialout codes give ISACC instructions on how to set the phone digits when dialing the phone number Each code is counted as one digit toward the total of 32 digits The dialout codes are P two second pause W wait for dial tone B wait for beeper tone A wait for phone to be answered send alarm input digits P two second pause two second pause can
130. ration data and all information regarding the status of monitored I O channels shall be accessible In addition C programming using the resident C compiler may also be accomplished locally B Remote Programming The system shall have a built in 1200 bps modem for the purpose of remotely programming and communicating all system configuration and input data using a PC or dumb terminal that has a modem C programming may also be accom plished remotely User programmable security password shall protect the system from unauthorized tampering V System Features Power The system shall be provided with a UL listed 20V AC power transformer that the user may plug into a 117V AC outlet 20 60HZ Typical power consumption shall be 12 Watts B Data Log The system shall be capable of logging and storing up to 512 records Each record shall contain the present value of all 16 inputs with a time stamp The time be tween logs shall be user programmable The system shall be able to display log information on a terminal or PC monitor or print the log information to a printer hooked up to its built in RS232 serial port The data log shall also be retrievable 127 Sensaphone ISACC Instruction Manual remotely by terminal or PC Diagnostics and Testing The system shall have built in diagnostic tests to pinpoint system problems D Security The system shall allow the user to program a data password to prevent unautho rized local or
131. re P10 for 4800 bps the shunts must be OFF OFF ON P10 1 2 3 ON OFF Shunt configuration for 4800 bps To configure P10 for 9600 bps the shunts must be ON OFF ON 10 ON OFF Shunt configuration for 9600 bps NOTE Again do not change the configuration of the shunts for local communication unless you are positive that your PC cannot communicate at 9600 bps 6 If you changed the position of the shunts you must reset ISACC so that the unit can recognize the new configuration To do this press the reset button a hole is provided in the acrylic safety panel or turn the ON OFF switch off and back on again If you did not reconfigure the shunts you do not need to reset ISACC 26 Chapter 3 Communication Setup 7 When using a PC to communicate locally with ISACC you must next install communica tions software Provided with ISACC is the ISACC MANAGER for Windows Software The package comes with four 3 5 floppy disks Follow the instructions in the ISACC MAN AGER User s Manual to install the software SETUP FOR TERMINAL LOCAL COMMUNICATION THROUGH RS232 PORT To communicate locally you must hookup and configure ISACC s RS232 port with your terminal ISACC s RS232 port is positioned on the circuit board at location P4 next to the phone jack and is labelled RS232 PORT DCE Provided with ISACC is an Ac
132. ready timing it timer delay timergo 1 Start timer set flag if timer 0 amp amp timergo 1 If timer reaches zero and flag is set relay 1 Set relay flag to ON if input 3 0 If input closes timer 0 timergo 0 relay 0 Clear timer flag and turn relay OFF if input 5 0 amp amp relay 0 If input 5 relay disable switch is closed not active and relay accumulator is not zero output 10 1 Turn relay ON else output 10 0 Turn relay OFF 2 This example toggles output 1 on and off based on the output s previous state main output 1 1 output 1 2 3 This example demonstrates RESETTING VARIABLES and SINGLE TIME EVENTS int rset average total recent prvhrs main if rset 0 Using the ISACC command SET VAR RSET and setting RSET 0 causes these variables to be cleared average 0 total 0 recent 0 prvhrs 0 rset 1 RSET 1 prevents variables from being cleared every time the program runs 109 Sensaphone ISACC Instruction Manual recent input 1 Get the value from input 1 if hours 6 amp amp prvhrs 6 This segment of code runs only when the hours change to 6 1 total total recent average total 24 prvhrs hours This prevents the previous IF statement from executing more than once durin
133. remote access to programming VI Remote Operation Features Voice Status Report The system shall allow the user to call into the unit at any time using any standard telephone to obtain a status report of user selectable monitoring information The status report shall be articulated using the resident voice synthesized English vocabulary B Data Status Report The system shall allow the user to call into the unit with any PC or terminal using a modem The system shall allow interrogation and programming access to system parameters and status after the appropriate data password is entered Voice Acknowledgment An alarm on any monitored channel may be acknowledged remotely by pressing tones on a touch tone telephone keypad D Data Acknowledgment An alarm on any monitored channel may be acknowledged remotely by the user by PC or terminal The system shall provide a visual status report on a terminal or PC monitor indicating the alarm s in progress and then shall request acknowledg ment When dialing out in data mode the system may be programmed to self acknowledge on carrier VII Enclosure and Environmental A Enclosure The system shall be housed in a NEMA 4 ABS plastic enclosure with a removable clear cover and shall be internally constructed to facilitate field upgrades repair and maintenance B Power Supply The unit shall provide battery backed 5 Volts DC 12 Volts DC 15 Volts DC and 20 Volts DC to power external
134. ropped or the cabinet is damaged 4 The unit doesn t function normally when you re following the operating instruc tions CAUTION Safety Instructions Page 3 Reduce Risk of Fire or Injury to Persons Read and Follow these Instructions 1 Use only the following type and size batteries 6V 3 0AH sealed lead acid rechargable Do not dispose of the batteries in a fire The cell may explode Check with local codes for possible special disposal instructions Do not open or mutilate the batteries Released electrolyte is corrosive and may cause damage to the eyes or skin It may be toxic if swallowed Exercise care in handling batteries in order not to short the battery with conducting materials such as rings bracelets and keys The battery or conductor may overheat and cause burns Do not mix old and new batteries in this product Battery service should be performed by qualified personnel only Page 4 Sensaphone ISACC Instruction Manual Table of Contents TABLE OF CONTENTS ISACC MANUAL 3 4 9 SAFETY INSTRUCTIONS 3 IMPORTANT SAFETY INSTRUCTIONS wcccicccacdscvestsncescetsbscecossaaessstcusdecssnsbesedesdscevededbonssseess 3 CHAPTER T INTRODUCTION issestet espere 9 PROGRAMMING ISACCO 255255 sons ET uetus ec KEN a V s ouis ecu abu ce ale Vas 003935489350 rig ba EUREN e 9 LEARNING TOUSE ISAC patents dore pe ep DeL ene na el e
135. rt the other end of the RS232 wire into the female DB25 socket 4 Insert the female DB25 socket into your PC s male RS232 port Make sure that you are connecting to one of the PC s COM ports and not to a parallel port If your PC s COM port is a 9 pin connector then use the included 9 pin socket instead See page 30 for ISACC s RS232 Specifications and a diagram of the RS232 DB25 socket 5 After connecting the PC with ISACC you may need to configure the PC s RS232 port to communicate at the same speed bps as ISACC see the ISACC Manager User s Manual If this is not an option you can change ISACC s communication rate by configuring the shunts at location P10 on the ISACC board Before changing anything read the following IMPORTANT The speed of ISACC s RS232 port is completely independent of ISACC s built in modem or modem speed ISACC s modem has its own separate RS232 port built in Therefore you do not need to configure ISACC to communi cate at the same speed as its built in modem 1200 bps when you are communi cating locally Use the rate at which your PC can communicate ISACC is factory configured at 9600 bps which is the fastest it can communicate All PCs can communicate at least that fast Unless your PC definitely communicates at a slower speed do not change the configuration of the shunts for local communication ISACC is capable of communicating locally at the following speeds 150 bps 2400 bps 300 bps 480
136. ry will not keep ISACC operational Its function is to retain the time and program if the power fails and backup battery is exhausted 18 Chapter 2 Installation TURNING ISACC ON Now that ISACC has power the ON OFF switch may be turned on ISACC s buzzer will sound briefly The power LED will come on and be constant and the pulse LED will blink steadily The phone LED will not be lit When the unit is turned off it is disabled Programming parameters are retained by the 3V lithium battery In the off position the 3V lithium battery is in use however 18V battery backup is not RESET BUTTON Under the acrylic safety panel on ISACC s PC board is a reset button This is provided to manually reset the unit The button can be pressed by pushing a pen or thin object through the hole provided When the reset button is pressed the PC board stays powered but the system is reset Anything that ISACC recognizes as an alarm will be acknowledged and all dialout processes will be halted BUZZER Located on the PC board is a buzzer When ISACC is turned on or reset this buzzer will go on briefly and then go off The buzzer may also be used as a local audible alarm It is consid ered OUTPUT in the programming of the parameters and the C program PHONE LINE INSTALLATION ISACC must be hooked up to an analog phone line so that it can dial out for an alarm On the PC Board there is an RJ11C phone jack It is located on the
137. s code fragment when input 1 closes the program will turn output 9 on and then wait for 60 seconds without doing anything else Input 2 may close during this time period and critical data may be lost After this time period output 9 is turned off and then input 2 is checked The next program fragment is a straight through approach using only IF statements if input 1 0 output 9 1 start time minutes if start_time 1 lt minutes output 9 0 if input 2 0 data 0 0 1 1 In this code fragment when input 1 closes the program will turn output 9 on and then continue with the rest of the program It will then check for the output 9 off condition time expired and for the input 2 closure condition It will not be held up in a WHILE loop Please note that these examples are greatly simplified for this discussion they do not account for the minutes variable rolling over from 59 to 0 108 Chapter 8 Programming PROGRAMMING EXAMPLES 1 This example demonstrates TIME DELAY and OUTPUT DISABLING int delay timer timergo relay temp rate main if temp lt seconds rate seconds temp Calculate reload rate temp seconds Save seconds for next run of program if timer 0 timer timer rate Update countdown timer if timer lt 0 timer 0 Don t count past zero if input 3 1 amp amp timergo 0 If input 3 opens and we aren t al
138. sensors solid state relays or output devices The system shall have built in 18VDC Gel Cell rechargeable battery backup The backup shall support a maximum of 14 hours of continued system operation in the absence of AC power Actual battery backup performance is dependent upon the number of external devices being powered by the system 128 Appendix Engineering Specifications D Electrical Protection Power and telephone connection shall have internal spike and surge protection using metal oxide varistors All input channels shall have spike protection and noise filter circuits E Additional Electrical Surge Protection Additional Power and Telephone line surge protection shall be available from the manufacturer When so installed the system shall be fully warranted against any damage caused by transient surges entering the system through Power or Telephone lines Environmental The system shall function over an operating range of 32 120 F at up to 0 90 RH non condensing Maintenance The system manufacturer shall have in house service facilities and technical assis tance available during normal business hours EST Specifications subject to change without notice Phonetics Inc 901 Tryens Road Aston PA 19014 Phone 610 558 2700 FAX 610 558 0222 http www sensaphone com 129 Sensaphone ISACC Instruction Manual 130 APPENDIX BOARD LAYOUT Optional a
139. sure to program n1 as the network request number NOT the input or output number that you want to manipulate For analog outputs if n2 is 0 or 1 the output will be set to that value Note that analog outputs use incremental values Therefore the value 1 for an analog output 15 not the same as on for a digital output 96 Chapter 8 Programming OUTPUT Summary int output 01 12 int n1 Output number int n2 Command O turn off l turn on 2 return status Description The output function will turn a digital output specified by n1 on or off or will just read the present state of the output It will also set the value of an analog output The analog outputs referred to as outputs 11 through 14 are 0 to 10V They are specified by 8 bit data from 0 to 255 If n1 is from 1 to 8 it refers to the corresponding digital outputs When n1 is 9 it refers to the built in buzzer and when n1 is 10 it refers to the built in relay This function will not change an output unless that output is set for automatic control See OUTPUT command Chapter 7 Return value The output function returns the state of the digital output 0 for off 1 for on IM PORTANT If the output function is used an analog output with n2 2 it will return status and set the output to a value of 2 There is no way to query an analog output without changing its value The C program must remember what it set it to The value of n2 is assigned to the analog ou
140. the telecommunications company cause to request the user to disconnect the equipment Users should ensure for their own protection that the electrical ground connections of the power utility telephone lines and internal metallic water pipe system if present are connected together This precaution may be particularly important in rural areas CAUTION Users should not attempt to make such connections themselves but should con tact the appropriate electric inspection authority or electrician as appropriate The Load Number LN assigned to each terminal device denotes the percentage of the total load to be connected to a telephone loop which is used by the device to prevent overloading The termination on a loop may consist of any combination of devices subject only to the requirement that the total of the Load Numbers of all the devices does not exceed 100 For Sensaphone ISACC Models 5000 and 5100 the Load Number is 8 21 Sensaphone ISACC Instruction Manual 22 Chapter 3 Communication Setup CHAPTER 3 COMMUNICATION SETUP After you have installed the unit you must set up communications with ISACC before you can begin programming To communicate with ISACC you must have the following IBM PC or compatible with the Microsoft Windows Operating System RS232 serial port and or a Hayes compatible modem and the supplied DB25 cable OR Dumb terminal with RS232 serial port and or a Hayes compatible modem and th
141. there will be a PC Board ISACC mounted inside an ABS plastic enclosure rated at NEMA 4 4X 12 and 13 You will also find the ISACC Instruction Manual a Communication Hookup Kit and ISACC Communication Software Carefully remove ISACC from the box The mounting holes are located under the six plastic screws Carefully remove them and the clear top cover to mount the enclosure Decide where you will be mounting ISACC and drill holes according to the diagram below 27 diameter enclosure mounting holes under plastic screws PC board ISACC phone receptacle 85232 port strain relief clamp power cord Mounting ISACC enclosure After the holes have been drilled you can mount the enclosure Reinstall the top cover after installation is complete STRAIN RELIEF Strain relief clamps are provided in the ISACC enclosure to prevent wiring from being pulled from the circuit board or damaged when passing through the enclosure To use the strain relief thread wires through the clamp and clear rubber bushing Position the bushing in the clamp and tighten the screws on either side so that the wiring does not move 12 Chapter 2 Installation top plate clamp screw bottom plate clear rubber bushing wiring Strain relief clamp POWERING ISACC IMPORTANT Before applying power to ISACC the ON OFF switch must be in the OFF position The ON OFF switch is located to the right of the acrylic panel be
142. ting via modem Reset Used alone or with a specific input number to reset minimum and maximum values and pulse count values Run Executes the C program once Start Initiates the C program Stop Halts the C program 123 Instructs ISACC to display the records of the data logging function in a format that allows exporting into a spreadsheet 121 ISACC Instruction Manual SET SHOW KEYWORDS Alarms Used with show to display any outstanding alarms Clock Battery backed clock that allows the time and date to be displayed or programmed Dialout Used to display or instruct ISACC to enable or disable the dialout for each alarm Inputs Used with show to display the present values of the inputs If an input number is followed the command only displays that specific input Itype Used with set or show to program or display the input type and name Limits Used with set or show to program or display the high and low limits of the inputs Logging Used to display or instruct ISACC on the data logging parameters Network Used with set or show to program or display the networking requests Oname Used with set or show to program or display the output names Outputs Used with set or show to program or display the state of the outputs If an output number follows the command only effects that specific output Phone Used with set or show to program or display the dial out phone numbers communi
143. to mount 4 module rack using four 6 32 1 machine screws If you are using input modules you must hardwire the rack to ISACC If your application requires the use of many input modules you may want to consider using a 16 module rack See end of this section NOTE With the 4 module racks you may use a combination of input and output modules in the same rack For information on output modules See Chapter 5 Outputs To use the 4 module rack with ISACC 1 Insert solid state modules into the 4 module rack 2 Place the rack in front of you so that 2IO 4A is at the top and the LEDs are on your right 3 The right side of the 4 module rack is the logic I O that is wired to ISACC The left side of the board is the field I O that is wired to the I O devices 37 Sensaphone ISACC Instruction Manual To wire the logic I O right side to ISACC 1 Attach terminal 1 on the right side to 5VDC on the ISACC power supply termi nal block Attach terminal 2 to one of the C common terminals on the ISACC power supply terminal block 2 Connect an odd numbered terminal 3 5 7 or 9 to one of the ISACC input terminals 1 16 on the bottom row terminal block The shunt for this input must be in the TEMP position To wire the field I O left side to the input device If the input device is DC 1 Connect ground from the outside device to the odd numbered terminal 3 5 7 or 9 on the rack 2 Connect the positive voltage from the outside
144. tput Example This program will turn output 8 on between the hours of 8 00am and 5 00pm This program will also set analog output 1 to full scale if the buzzer is on and sets analog output 1 to bottom scale when it is off main if hours gt 8 amp amp hours lt 17 output 8 1 else output 8 0 if output 9 2 1 output 11 255 1 output 11 0 97 Sensaphone ISACC Instruction Manual OUT_SPEC Summary int out spec n int n Input number Description The out spec function checks if the value of input n is outside of the high and low alarm limits This 15 without regard to alarm processing recognition time acknowl edged status dialout selection and dialout enabling Return value The out spec function will return a zero if the input is within limits and will return a nonzero result if it is outside of the limits Example This program will set output 9 the onboard buzzer on if input 5 is closed It will set output 9 off when input 5 opens again Input 5 is defined as a normally open input main if out_spec 5 0 output 9 1 PUTNUM Summary int putnum n int n Value Description The putnum function will write the value of n to the local RS232 port Return value The putnum function always returns a zero Example This program will send the value of input 9 to the R S232 port
145. unting I O Devices APPENDIX D MOUNTING I O DEVICES This appendix includes diagrams to show you how various combinations of I O racks and relays mount into the ISACC enclosure ISACC s enclosure will accept One 4 module rack or One 8 module rack or 8 high power solid state relays or e 4 high power solid state relays and one 4 module rack 133 Sensaphone ISACC Instruction Manual 134 lt lt Steel back plate O O O Mounting holes for O O O O lt high power relays O O O Mounting holes for ox 4 module rack and 8 module rack O ISACC circuit board ANTAA SLOdLNO SLOdLNO TWLISId EI E RIDES a P11 10 ON OFF NO Pre drilled holes in ISACC steel panel Appendix Mounting I O Devices lt Steel back plate o esses lt 4 module rack gt O O gt 9 ON T D z OD O 92 AS D ACIDO T Z t V S L DAS D AST D AOZ D IMH vC VC DH ANTAA
146. ut 09 cleared Input 10 cleared Input 11 cleared Input 12 cleared Input 13 cleared Input 14 cleared Input 15 cleared Input 16 cleared 72 Chapter 7 Programming PATCH This command enables you to communicate directly with an external device connected to the RS232 port when you call ISACC using a modem This command also allows you to establish an online session with an ISACC unit not connected to your PC but through the Master unit This is called network patching To communicate with an external device connected to ISACC s RS232 port type patch after an ISACC prompt ISACC gt patch To communicate with ISACC units in a network through the master the patch command is followed by the node number This can be used remotely or locally The following example patches to the ISACC unit with node number 2 ISACC gt patch 2 Using the above example you will receive the message Connecting to network 2 Type the command SHOW SYSTEM The system parameters of the network unit 2 will now be listed You are online with that unit and may now program it To return to the Master unit type the command EXIT press ENTER and then press CTRL Z If you type the command SHOW SYSTEM you should see the Master s system parameters HELP The HELP command provides a list of all valid KEYWORDS and STAND ALONE com mands To display the command list type help after an ISACC prompt ISACC gt help COMMANDS SET SHOW KEYWORDS SHOW INPUTS
147. yntax of a built in function is incorrect When a run time error occurs the type of error is displayed but not a line number Below is a list of compiling errors ERROR TYPE DESCRIPTION Syntax Semicolon expected Unbalanced braces Parentheses Expected While expected Quote expected Variable not found Too many variables defined limit is 127 Bracket expected Compiled file too big 106 Chapter 8 Programming DIFFERENCES BETWEEN STANDARD ISACC For those of you who are familiar with C programming note that there are some differences between standard C and ISACC s C compiler The following items will be helpful to be aware of 1 With ISACC every ELSE FOR DO and WHILE must have set of brackets after it 2 Condition clauses must be grouped together into pairs Standard C will allow IF conditionl condition2 amp amp condition3 ISACC C requires IF condition1 amp amp condition2 condition3 2 There are no shortcut statements such as i red 5 or bits amp 5 However statements such as the following are allowed if placed inside parentheses IF x input 5 0 4 Bitwise operators are not implemented There are bitmask bitmask amp 4 5 ISACC C only works with base ten integers No floating point or hexadecimal numbers can be used unless you implement them in your C program However doing
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