ADAM-5000_IO_Module_Manual_Ed-2.11
Contents
1. 000000001 0 Alarm Type Alarm Limit DO Map Slot Channel High latch z p Low Latch Update COM 2 9600 bps Polling current data A WwW N m 2001 9 19 Figure62 Digital Output Mapping High Alarm State Set Alarm state to Latch or Disable High Alarm Limit Set Alarm limit from 0 to 4 294 967 295 High Alarm Output Mode Enable or Disable D O Mapping High Alarm Output Slot Users can select D O Modules such as ADAM 5050 ADAM 5055 ADAM 5056 ADAM 5060 ADAM 5068 for the alarm signal to be sent through Un High Alarm Output Channel Select Alarm Output Channel 6 Clear Latch Alarm Users can select Enable or Disable option When selecting Enable the latch will be relieved and the alarm state will return to normal Once the alarm state returns to normal the Clear Latch Alarm will return to Disable P 85 ADAM 5000 Series I O Module User s Manual I O Module Introduction TTL Isolated Input Level According to your need you can select either TTL or Isolated Input Level by setting the configuration for the jumpers Select the proper jumper settings for either TTL or Isolated Input according to Figure 63 Please note that you must configure all six jumpers to the correct con figuration for proper function Figure 63 Jumper Location on the ADAM 5081 Module P 86 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADA2. 0 current counter value 3 the totalizer value could be calculated as Totalizer value 110 0 1 xl 41 110 312 51 P 76 ADAM 5000 Series I O Module User s Manual Features Digital Output Mapping If users want to use Digital Output function ADAM utility is available for setting specifically which module channel or slot to receive the alarm signals 81 x File Tools Help oj ajala ziz S ADAM 5080 Channel 0 00 5000 S0 5024 M General Setting 1 5013 52 5018 Input Range Bi direction counter 53 5080 Data Format Hex CHO CH 1 cH 2 M Channel Setting BB CH 3 i H Alam L Alam CeaH Latch Reading pooona Off of Clear L Latch Sle START STOP TEXT Clear Counter Digital filter scale 8765000 00050 us Off Initial value 000000001 0 Alarm Type Alarm Limit DO Map Slot Channel High Lech ooooo00060 v Enable fi m 2 Low latch s ooooo00030 Disable 24 Update COM 2 9600 bps Polling current data 2001 79 19 AM 09 53 Figure62 Digital Output Mapping High Alarm State Set Alarm state to Latch or Disable High Alarm Limit Set Alarm limit from 0 to 4 294 967 295 High Alarm Output Mode Enable or Disable D O Mapping High Alarm Output Slot Users can select D O Modules such as ADAM 5050 ADAM 5055 ADAM 5056 ADAM 5060 ADAM 5068 for the
3. 60 Hz Input connections 2 3 or 4 wire Accuracy 0 1 or better Zero drift 0 015 C C Span drift 0 01 C C CMR 50 60 Hz 150 dB NMR 950 60 Hz 100 dB Power consumption 1 2 W Table 2 Technical specifications of ADAM 5013 P 6 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5013 RTD Input Resistance Calibration 1 Apply power to the module and let it warm up for about 30 minutes 2 Make sure that the module is correctly installed and is properly con figured for the input range you want to calibrate You can use the ADAM utility software to help in this 3 Connect the correct reference self resistance between the screw terminals of the ADAM 5013 as shown in the following wiring diagram Table 2 below shows the correct values of the span and zero calibration resistances to be connected Reference resistances used can be from a precision resistance decade box or from discrete resistors with the values 60 140 200 and 440 ohms Resistance Decade Box Figure 3 Applying calibration resistance 4 First with the correct zero offset calibration resistance connected as shown above issue a Zero Calibration command to the module using the Calibrate option in the ADAM utility software 5 Second with the correct span resistance connected as shown above issue a Span Calibration command to the module using the Calibrate option in the ADAM utility software No
4. onouo0o0noood gocgooodo 8 oooooooo aoaoooao Figure 13 Locations of Jumpers Note To maintain measurement accuracy pleases short channels not in use P 18 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5017H Analog Input Channels 8 differential ADC Resolution 12 bits plus sign bit Type of ADC Successive approximation Isolation Voltage 3000 Voc Sampling Rate 100 Hz Input Impedance 20 Mohms voltage inputs 200 ohms current inputs built in on the board Signal Input Bandwidth 1000 Hz for both voltage inputs and current inputs Analog Signal Range 15 V max 15 V max Analog Signal Range for any two measured Pins Power Requirements 10 to 30 Voc non regulated Power Consumption 1 8 W Accuracy 0 1 or better Table 5 Technical specifications of ADAM 5017H ADAM 5000 Series I O Module User s Manual P 19 I O Module Introduction Input With Offset Offset Gain Gain Error Offset Gain Display Range Overranging Error Error Error 10 Drift Drift Resolution 25 C 10 25 C To to 70 C 70 C Voltage 0 10 0 11V 1 2 2 LSB 17 50 2 7 mV Inputs V LSB LSB LSB uVv C ppm C 0 5V 0 5 5V 1 2 1 5 2 LSB 16 50 1 3 mV LSB LSB L
5. Isolated DO Isolated Table 1 I O Module Support List P 2 ADAM 5000 Series I O Module User s Manual I O Module Introduction Module Name Specification Reference ADAM 5060 6 ch Relay output Isolated Relay Output ADAM 5068 8 ch Relay output Isolated ADAM 5069 8 ch Relay output Isolated ADAM 5080 4 ch Counter Frequency Isolated Counter Frequenc ch 8 j q y ADAM 5081 4 ch 8 ch High Speed ioelated Counter Frequency ADAM 5090 4 port RS232 Non isolated 4 port RS232 with Share Serial I O ADAM S091 Intemipt Non isolated ADAM 5095 2 port CAN with Isolation Teolnied protection Storage ADAM 5030 2 slot SD Storage Module Motion ADAM 5202 2 port AMONet Master Module Table 2 I O Module Support List ADAM 5000 Series I O Module User s Manual P 3 I O Module Introduction 1 Analog Input Modules Analog input modules use an A D converter to convert sensor voltage current thermocouple or RTD signals into digital data The digital data is then translated into engineering units The analog input modules protect your equipment from ground loops and power surges by providing opto isolation of the A D input and transformer based isolation up to 3 000 V ADAM 5013 3 channel RTD input module The ADAM 5013 1s a 16 bit 3 channel RTD input module that features programmable input ranges on all channels This module is an extremely cost effective solution for industrial measurem
6. 05h 2 5 V 2 5 V 06h 20 mV 20 mA 1 OEh J thermocouple 0 to 50 mV 1370 C OFh K thermocouple 0 to 50 mV 1370 C 10h T thermocouple 100 to 22 mV 400 C Ih E thermocouple 0 to 80 mV 1000 C 12h R thermocouple 500 to 22 mV 1750 C 13h S thermocouple 500 to 22 mV 1800 C 14h B thermocouple 500 to 152 mV 1800 C 5017 07h Not used 08h C 10 V 10 V 09h 5 V 5 V OAh 1 V 1 V OBh 500 mV 500 mV OCh 150 mV 150 mV 0Dh 20 mA 20 mV 1 Table 12 Calibration voltage of ADAM 5017 5018 ADAM 5000 Series I O Module User s Manual P 35 I O Module Introduction Calibration voltage ADAM 5017H Module rb EE roe Input Range Span Calibration Voltage 00h 10 V 10 V 01h 0 10V 10 V 02h 5 V SW 03h 0 5V To Vi 04h 32 5WV 42 5 V 05h 0 2 5 V TAIN 5017H 06h 1 V 1 V 07h 0 1V 1 V 08h 500 mV 500 mV 09h 0 500 mV 500 mV Oah 4 20mA 1 Obh 0 20mA 1 Table 13 Calibration voltage of ADAM 5017H Note You can substitute 2 5 V for 20 mA if you remove the current conversion resistor for that channel However the calibration accuracy will be limited to 0 1 due to the resistor s tolerance P 36 ADAM 5000 Series I O Module User s Manual I O Module Introduction Calibration voltage ADAM 5018P Module Input Range Code Input Range Span Calibration Hex Voltage 00h 15 mV 15 mV Olh 50 mV 50
7. 21 pin plug terminal Table 18 Technical specification of ADAM 5051S ADAM 5000 Series I O Module User s Manual P 47 I O Module Introduction ADAM 5052 8 channel isolated digital input module The ADAM 5052 provides eight fully independent isolated channels All have 5000 V isolation to prevent ground loop RMS effects and to pre vent damage from power surges on the input lines ADAM 5052 Figure 37 ADAM 5052 module frontal view Application wiring 5V Internal Logic Figure 38 Isolation digital input ADAM 5052 P 48 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5052 Points 8 Differential Logic level 0 1 V max Logic level 1 3 5 to 30 V Isolation voltage 5000 V rms Resistance 3 kQ 0 5 W Digital input Power consumption 0 4 W Table 19 Technical specifications of ADAM 5052 ADAM 5000 Series I O Module User s Manual P 49 I O Module Introduction ADAM 5053S 32 channel Isolated Digital Input Module The ADAM 5053S provides 32 isolated digital input channels for critical environments need individual channel isolating protection Different from other ADAM 5000 I O modules ADAM 50538 designed with 40 pin flat cable wiring terminal ADAM 5053S Technical specification of ADAM 5053S Point 32 Digital Input ee 5 V max Logic Level Optical Isolation 2500 Voc Opto isolat
8. 5081 ENNIO faen elf Jf Figure 59 Setting Alarm Limit Setting Initial Counter Value In order to utilize the alarm function users have to set a high alarm limit value and or a low alarm limit value and an initial value to fulfill the requirements for a basic alarm setting Max value Initial value Sending Low alarm a Low alarm limit value v Min value Figure 60 Sending Alarm Signal recommended settings ADAM 5000 Series I O Module User s Manual P 83 I O Module Introduction Max value Initial value Sending High alarm High alram Initial value Sending low alarm Low alarm limit value Min value Figure 61 Sending Alarm Signal settings not recommended Overflow Value Overflow value is the number of times the counter value exceeds the Max Min values you specified When the counter value exceeds Maxi mum value the overflow value increases when the counter value goes under Minimum value the overflow value decreases Besides when the counter value runs beyond the range of Max Min value it will continue counting from the initial value Furthermore if users want to check the counter value to see if it is higher or lower than the Max Min value they can use the ReadOverflowFlag library to gain readout of the over flow value Getting the Totalizer Value If users want to get th
9. COB D to implement the control function for Up Down Counting Up Counting when the input signal is within logic level 1 the counter value increases COA CoA C0B D COB D Figure 57 Wiring for Bi direction Counting Down Counting when the input signal is within logic level 0 the counter value decreases Note If users select TTL mode and don t connect COB COB the counter value will increase If users select Isolated mode and don t connect COB COB the counter value will decrease ADAM 5000 Series I O Module User s Manual P 73 I O Module Introduction Features Frequency Mode If users want to select frequency mode they can only utilize Up Counting type and can only connect to COA and COA COA CoA C0B D COB D Figure 58 Wiring for Frequency Mode Features Alarm Setting According to your application purposes you can run the utility program to set different limit values for High Low Alarm Figure 59 Setting Alarm Limit P 74 ADAM 5000 Series I O Module User s Manual I O Module Introduction Setting Initial Counter Value In order to utilize the alarm function users have to set a high alarm limit value and or a low alarm limit value and a initial value to fulfill the requirements for a basic alarm setting Max value Sending High alarm High alarm limit value Initial value Sending Low alarm ai Low alam limit value v Min value Figure
10. alarm signal to be sent through High Alarm Output Channel Select Alarm Output Channel 6 Clear Latch Alarm Users can select Enable or Disable option When selecting Enable the latch will be relieved and the alarm state will return to normal Once the alarm state returns to normal the Clear Latch Alarm will return to Disable A oU N E Un I O Module Introduction TTL Isolated Input Level According to your need you can select either TTL or Isolated Input Level by setting the configuration for the jumpers Select the proper jumper settings for either TTL or Isolated Input according to Figure 53 Please note that you must configure all six jumpers to the correct con figuration for proper function Leo 6 jumpers OOOOOOOQO Figure 63 Jumper Location on the ADAM 5080 Module CHODCOCOLCOLD COQOLDLUOLCOCUOLDHILIC TTL Input Level Isolated Input Level Figure 64 TTL Isolated Input Level Selecting P 78 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5080 Technical Specifications Channel 4 E 0 3 1000 Hz max Frequency P d y mode 5000 Hz max Counter mode Input Level Isolated or TTL level Minimum Pulse Width 500 u sec Frequency mode 100 u sec Counter mode Minimum Input Current 2mA Isolated Logic Level 0 1 Vmax lgolateg taput Level Logic Level 1 3 5 V to 30 V Logic Level 0 0 V to 0 8 V Logic EEL Inputrbeyg
11. especially suitable for bi direction communication It can simultaneously read data from other third party devices such as Bar Code and PLC as long as these devices are equipped with a RS 232 interface Furthermore the ADAM 5090 can issue commands to control other devices It is fully integrated with the ADAM 5000 ADAM 5500 and ADAM 4000 series and transmits data to each other through the RS 232 port The whole integrated system is an intelligent stand alone system and can connect and issue commands to control devices such as printers and PLCs in remote factory location The ADAM 5090 transmits and receives data by polling communication and each port can receive up to 128 bytes in the FIFO For continuous data longer than 128 bytes please refer to Table 20 for Baud Rate setting to avoid data loss Baud Rate 115200 57600 38400 19200 9600 4800 2400 bps Polling iidi 2252 3833 6636 13333 266 66 533 33 interval ms Table 27 Baud Rate setting reference table P 89 ADAM 5000 Series I O Module User s Manual I O Module Introduction C ication Backup Funeti With the ADAM 5090 you can implement dual communication channels between your PC and the ADAM system Even when one of the two communication channels is down your system can still function through the alternative communication channel This dual communication channels can be implemented by application software ADAM 5090 Module
12. mV 02h 100 mV 100 mV 03h 500 mV 500 mV 04h mV 1 V 05h 2 5 V 2 5 V 06h 20 mV 20 mA 1 07h 4 20 mA 16 mA 1 OEh J thermocouple 50 mV 5018P 0 to 1370 C OFh K thermocouple 50 mV 0 to 1370 C 10h T thermocouple 22 mV 100 to 400 C Ith E thermocouple 80 mV 0 to 1000 C 12h R thermocouple 22 mV 500 to 1750 C 13h S thermocouple 22 mV 500 to 1800 C 14h B thermocouple 152 mV 500 to 1800 C Table 14 Calibration voltage of ADAM 5018P ADAM 5000 Series I O Module User s Manual P 37 I O Module Introduction Calibration voltage ADAM 5017UH Module ral moe Input Range Span Calibration Voltage 08h 10 V 10 V 48h 0 10V 10 V 5017H 46h 0 20mA 1 07h 4 20 mA 1 Table 15 Calibration voltage of ADAM 5017UH Note You can substitute 2 5 V for 20 mA if you remove the current conversion resistor for that channel However the calibration accuracy will be limited to 0 1 due to the resistor s tolerance P 38 ADAM 5000 Series I O Module User s Manual I O Module Introduction Analog output module calibration The output current of analog output modules can be calibrated by using a low calibration value and a high calibration value The analog output modules can be configured for one of two ranges 0 20 mA and 4 20 mA Since the low limit of the 0 20 mA range 0 mA is internally an absolute reference no power or immeasurably small power just two levels are
13. program for the ADAM 5090 main Install the port you would like to use Here we install slot 0 port 1 port_install 1 Here we install slot 2 port 2 port_install 22 Select working port Here we select slot 0 port 1 port_select 1 Set port data format Here we set the data format of port 1 as lengh 8 parity 0 stop_bit 1 N81 port_set_format 1 8 0 1 Set port speed Here we set communication speed of port 1 as 115200 bps L is necessary P 93 ADAM 5000 Series I O Module User s Manual I O Module Introduction port set speed 1 115200LD Enable Port FIFO Here we enable 128 byte FIFO for portl port enable fifo 1 After these above settings are enabled you can apply any other function library to implement your program A receive and transmit example program for the ADAM 5090 main int err value char character port installed 1 port enable fifo 1 check whether error has been received or not err value port rx error 1 if error detected print out the message if err value printf n Rx Error The LSR Value 02X Err value check whether FIFO receives data or not if data received read a character if port_rx_ready 1 character port rx 1 check whether FIFO is empty or not if empty send a character if port tx empty 1 port tx 1 character P 94 ADAM 5000 Series I O Module User s Manua
14. 00 Series I O Module User s Manual I O Module Introduction 4 Execute the Zero Calibration command also called the Offset Calibration command ADAM 4000 5000 Series Setup Utility Program Salli 00 5000 HH WY 50 5024 1 501 w f 52 5018 53 5051 D Figure 23 Zero calibration 5 Execute the Span Calibration command This can be done with the ADAM utility software fill 00 5000 m lj 50 5024 H 1 5017 w f 2 5018 Pp 63 50510 Figure 24 Span calibration ADAM 5000 Series I O Module User s Manual P 33 I O Module Introduction 6 CJC Calibration only for T C input module 15115017 3 9051 0 Figure 25 Cold junction calibration Note Zero calibration and span calibration must be completed before CJC calibration To calibrate CJC the thermocouple attached to ADAM 5018 and a standard thermometer should be used to measure a standard known temperature such as the freezing point of pure water The amount of offset between the ADAM 5018 and the standard thermometer is then used in the ADAM utility to complete CJC calibration P 34 ADAM 5000 Series I O Module User s Manual I O Module Introduction Calibration voltage ADAM 5017 5018 Module Input Range Code Input Range Span Calibration Hex Voltage 5018 00h 15 mV 15 mV 01h 50 mV 50 mV 02h 100 mV 100 mV 03h 500 mV 500 mV 04h mV 1 V
15. 60 Sending Alarm Signal recommended settings Max value Initial value Sending High alarm u High alram Initial value Sending low alarm Low alarm limit value Min value Figure 61 Sending Alarm Signal settings not recommended Overflow Value Overflow value is the number of times the counter value exceeds the Max Min values you specified When the counter value exceeds Maxi mum value the overflow value increases when the counter value goes under Minimum value the overflow value decreases Besides when the counter value runs beyond the range of Max Min value it will continue counting from the initial value Furthermore if users want to check the counter value to see if it is higher or lower than the Max Min value they can use the ReadOverflowFlag library to gain readout of the over flow value ADAM 5000 Series I O Module User s Manual P 75 I O Module Introduction Getting the Totalizer Value If users want to get the actual counter value a formula such as follows can facilitate an easy calculation from the initial counter value overflow value and current counter value Vtol V ini Vmin or Vmax eg lj X IV vel T Vini Veur Vtol totalizer value Vini initial counter value V min min counter value 0 fixed value V max max counter value 2 22 4 294 967 295 fixed value Vvf overflow value Veur current counter value Example If the initial value 10 overflow value 4 min value
16. ADAM 5000 Series I O Module User s Manual 2 4 rd Edition May 2008 I O Module Introduction Introduction This manual introduces the detail specifications functions and application wiring of each ADAM 5000 I O modules To organize an ADAM 5510 Series Controller you need to select I O modules to interface the main unit with field devices or processes that you have previously determined Advantech provides 23 types of ADAM 5000 I O modules for various applications so far Following table is the I O modules support list we provided for user s choice Module Name Specification Reference ADAM 5013 3 ch RTD input Isolated ADAM 5017 8 ch AI Isolated ADAM 501 7P 8 ch AI with independent Input Isolated ADAM 5017H 8 ch High speed AI Isolated Analog I O ADAM 5017UH 8 ch Ultra High speed AI Isolated ADAM 5018 7 ch Thermocouple input Isolated ADAM 5018P 7 ae ee wae Isolated ADAM 5024 4 ch AO Isolated ADAM 5050 7 ch D I O Non isolated ADAM 5051 16 ch DI Non isolated ADAM 5051D 16 ch DI w LED Non isolated ADAM 5051 S 16 ch Isolated DI w LED Isolated ADAM 5052 8 ch DI Isolated ADAM 5053S 32 ch Isolated DI Isolated Digital I O ADAM 5055S 16 ch Isolated DI O w LED Isolated ADAM 5056 16 ch DO Non isolated ADAM 5056D 16 ch DO w LED Non isolated ADAM 5056S 16 ch Isolated DO w LED Isolated ADAM 5056SO 16 ch Iso DO w LED source Isolated ADAM 5057S 32 ch
17. D Figure 33 TTL input ADAM 5051 S051D P 44 ADAM 5000 Series I O Module User s Manual Internal Logic I O Module Introduction Contact Closure Power GND Figure 34 Contact closure input ADAM 5051 505ID Technical specifications of ADAM 5051 5051D Points 16 Logic level 0 1 V max Logic level 1 3 5 to 30 V Pull up PERSIGUE current 0 5 mA 10 kQ resistor to 5 V Power consumption 0 3 W Indicator ADAM 5051 D only Table 17 Technical specifications of ADAM 5051 ADAM 5000 Series I O Module User s Manual P 45 I O Module Introduction ADAM 5051S 16 channel Isolated Digital Input Module with LED The ADAM 5051 provides 16 isolated digital input channels for critical environments need individual channel isolating protection Different from other ADAM 5000 I O modules ADAM 5051S designed with 21 pins plug terminal ADAM 5051S Figure 35 ADAM 5051S module front view Application Wiring 45V Internal External Figure 36 ADAM 5051S module wiring diagram P 46 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specification of ADAM 5051S Point 16 4 channel group Digital Input Level b 10 050V Optical Isolation 2500 Voc Opto isolator response time 25 us Over voltage Protection 70 Voc Power Consumption 0 8 W LED Indicator On when active I O Connector Type
18. Diagram 4 RES ADAMESODO n Porti Ay T Ford RE ri Porti Al TX AX Figure 65 ADAM 5090 Module ADAM 5090 Application Wiring RJ 48 Communication Cable Figure 66 ADAM 5090 Application Wiring P 90 ADAM 5000 Series I O Module User s Manual I O Module Introduction PIN Mapping PIN Name RJ 48 DB9 DCD RX TX DTR GND DSR RTS CTS RI or 5V Ooj oo 1 0 ta Bw ds Xl lolol laI in un AIIN GND c Table 28 Pin Mapping ADAM 5090 Technical Specification Provides communication ports for the ADAM Function 5510 to integrate other devices with communication function into your system Electrical Interface 4 ports RS 232 Communication Rates 4800 9600 19200 38400 115200bps FIFO 128 bytes per UART Tx Rx Indicator Tx Orange Rx Green Power Required 100mA 5Vpc Default in RI mode Table 29 ADAM 5090 technical specifications Usercan define the communication ports with 5VDC output by switching the jumper and the maximum current output is 400mA P 91 ADAM 5000 Series I O Module User s Manual I O Module Introduction I O Slots and I O Ports Numbering The ADAM 5090 module provides four RS 232 ports for communication with target devices The ports are numbered 1 through 4 For programming the definition of port number depends on the slot number and port number For exampl
19. General 1 Connector 2 x DB9 M 2 LED Indicator Tx Yellow Rx Green For Each Port 3 Power Consumption 1 W max Communication 1 CAN Controller SJA 1000 2 CAN Transceiver 82C250 3 Protocol CAN2 0 A B 4 Signal Support CAN H CAN L 5 Speed 1Mbps Protection 1 Isolation Protection 1000Vpc P 99 ADAM 5000 Series I O Module User s Manual I O Module Introduction erla or In ssignmen Table 1 CAN Serial Port Pin Assignment CANI CAN2 CAN Signal Definition Termination Resistor Setting Terminal resistors are factory installed to allow for impedance matching These resistors can be enabled by utilizing SW1 and SW2 for each port shown below The value of the resistor should equal the characteristic impedance of the signal wires approximately 120 ohms The following figure shows resistor placements Enable Termination Resistor for CAN1 and CAN2 Ports SW and SW2 CAN Port 1 CAN Port 2 Back Board I O Slots and I O Ports Numbering There re two PCI slots on the version B of ADAM 5550 series If only one ADAM 5095 module is used no mater which PCI slot is plugged the port number shown in the Utility would be CAN1 and CAN2 If two ADAM 5095 modules are used the port number shown in the Utility would be CAN1 and CAN 2 for the first PCI slot and CAN3 and CANA for the second PCI slot P 100 ADAM 5000 Series I O Module User s Manual I O Module Introduction CAN Serial Port Wiring The CAN st
20. M 5081 Technical Specifications Channel 4 5 Hz 1 MHz max Frequency mode SODUEBEEquenoy 1 MHz max Counter mode Input Level Isolated or TTL level Minimum Pulse Width CUBA IET oe 1 u sec Counter mode Minimum Input Current 2mA Isolated Logic Level 0 3 Vmax Isolated Input Level Logic Level l E 10 V to 30 V Mimu ERIN DON Isolated Voltage 2500 Vis Mode Counter Up Down Bi direction up A B Phase Frequency Programmable Digital Noise Filter 1 65000 u sec Table 27 ADAM 5081 technical specifications P 87 ADAM 5000 Series I O Module User s Manual I O Module Introduction VCC Cx O Cx 4 10 30V X Y Vite L 1 0 Cx 1 9 cx NE s d Internal External Internal External Isolated input TTL input Output VCC IVCC DO Optional Ne E GND Internal External Isolated DO output Add a diode if load is relay P 88 ADAM 5000 Series I O Module User s Manual I O Module Introduction 7T Serial Module Overview Compatible ADAM 5000 Series Main Units The ADAM 5090 is a 4 port RS 232 communication module to be implemented with the following Advantech ADAM 5000 series main units ADAM 5510 with library Version V1 10 or above ADAM 5511 with library Version V1 10 or above ADAM 5090 4 port RS 232 Communication Module Bi direction Communication The ADAM 5090 is equipped with four RS 232 ports which makes it
21. Module User s Manual I O Module Introduction 6 Counter Frequency Module Overview Compatible ADAM 5000 Series Main Units ADAM 5080 is a 4 channel counter frequency module designed to be implemented within the following Advantech ADAM 5000 series main units ADAM 5000 485 ADAM 5510 ADAM 5511 ADAM 5510M ADAM 5510E ADAM 5510 TCP ADAM 5510E TCP Please make sure that the ADAM 5080 counter frequency module is properly inserted into the compatible main units ADAM 5080 4 channel Counter Frequency Module With ADAM 5080 4 Channel Counter Frequency Module users can select either counter or frequency mode for data output ADAM 5080 offers users a variety of very flexible and versatile applications such as below Counter Mode or Frequency Mode If you want to measure the number of input signals for totalizer function you may use counter mode to measure quantities such as movement and flow quantity Alternatively you can also select frequency mode to calculate the instantaneous differential of quantities such as rotating speed frequency or flow rate and present them in specific engineering formats Up Down or Bi direction Function When operating in counter mode you can choose either the Up Down function or the Bi direction function for different application purposes The counter will count up or down according to your applications This counting function helps users obtain the most accurate data ADAM 5000 Serie
22. Range 0 10V 10 V 4 20mA and 20 mA Isolation Voltage 3000 Voc 200k samples sec single channel sampling Rate 50k samples sec 8 channel Analog Input Signal Limit 15 V max Max allowable voltage difference between two connectors in a 15 V max module Input Impedance 20 Mohms Voltage input 120 Q current input Bandwidth 200kHz Accuracy 0 1 or better Low or high pass filter Configured by User CMR 50 60 Hz 92 dB min Power Requirements 10 to 30 Voc non regulated Power Consumption Signal Input Bandwidth 1 75 W typical 2 2W max 200kHz for both voltage and current inputs Table 7 Technical specifications of ADAM 5017UH Input Offset Offset Gain Gain Display Range Error Error Error Error Resolution 10 10 25 C to 25 C to 70 C 70 C Voltage 0 10V 2 1 LSB 2 2 7 mV Inputs LSB LSB LSB 10 V 2 1 LSB 42 2 7 mV LSB LSB LSB Current 0 20 1 1 15 2 53uA Inputs mA LSB LSB LSB LSB dd 4 20 1 5 2 53uA mA LSB LSB LSB LSB en Table 8 ADAM 5017UH input signal ranges P 24 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5618 7 channetthermocoupte input modute The ADAM 5018 is a 16 bit 7 channel thermocouple input module that features programmable input ranges on all channels It accepts millivolt inputs 15 mV 50 mV 100 mV 500
23. SB uVv C ppm C 0 2 5 0 2 75 V 1 2 1 5 2 LSB 20 55 0 67 mV V LSB LSB LSB uVv C ppm C 0 1V 0 1 375 2 5 2 5 LSB 20 60 0 34 mV V LSB LSB LSB uVv C ppm C 0 500 0 687 5 E E 3 5 LSB 20 67 0 16 mV mV mV LSB LSB uV C ppm C 10V 11 V E E an 2 LSB 17 50 2 7 mV LSB LSB LSB uVv C ppm C 5V 0 5 5 V 1 5 2 LSB 17 50 1 3 mV LSB LSB LSB uV C ppm C 2 5V 0 2 75 x x 1 5 2 LSB 20 55 0 67 mV V LSB LSB LSB uVv C ppm C 1V 0 1 375 2 5 2 2 5 LSB 20 60 0 34 mV V LSB LSB LSB uV 2c ppm C 500 0 687 5 3 3 5 LSB 20 67 0 16 mV mV mV LSB LSB uV Pc ppm C Current 0 20 E 1 5 lt a 5 ppm Inputs mA ich LSB LSB LSB en Bre C TNA 4 20 1 5 x A ppm ak 22 mA LSB LSB LSB 2 LSB nA C C 5 3 uA P 20 ADAM 5000 Series I O Module User s Manual Table 6 ADAM 5017H input signal ranges I O Module Introduction ADAM 5017UH 8 channel Ultra high speed analog input module The ADAM 5017UH is a 12 bit plus sign bit 8 channel analog differential input module that provides programmable input ranges on each channel It accepts voltage inputs 10 V and 0 10 V and current inputs 0 20 mA and 4 20 mA The module provides data to the host microprocessor in engineering units mV V or mA or two s complement format Its sampling rate depends on the data format received up to 200k Hz total Space is reserved for 125 ohm 0 196 10 ppm resistors See Figure 9 Eac
24. age surge of 60 V ADAM 5017P E UP ODD Pug npo L1 L1 C Q L1 L1 L1 L1 L1 d L1 c L1 L1 C i L1 Figure 7 ADAM 5017P module frontal view P 12 ADAM 5000 Series I O Module User s Manual I O Module Introduction Application wiring Figure 8 Millivolt and volt input Figure 9 Process current input ADAM 5000 Series I O Module User s Manual P 13 I O Module Introduction onouo0o0noood gocgooodo 8 oooooooo aoaoooao Figure 13 Locations of Jumpers Note To maintain measurement accuracy pleases short channels not in use P 14 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5017P Analog Input Channels Eight differential and independent Input Type mV V uni polar and bipolar mA 150 mV 500 mV 1V 5V 10V Input Range 0 150mV 0 500mV 0 1V 0 5V 0 10V 0 15V and 20 mA and 4 20mA High common mode 200 Voc Sampling Rate 10 samples sec total Resolution 16 bits Over Voltage 60 Voc 20 Mohms Voltage Input Impedance 120 ohms Current Built in TVS ESD protection yes 0 1 or better Voltage mode Afeuracy 0 2 or better Current mode Zero Drift t6gV Cc Span Drift 25 PPM C CMR 50 60 Hz 92 dB min Power Consumption 1 25 W Max Table 5 Technical specifications of ADAM 5017P ADAM 5000 Series I O Module User s Manual P 15 I O Module In
25. age 5 40 Voc Power consumption 0 6 W LED Indicator On when active I O Connector Type 21 pin plug terminal Table 22 Technical specification of ADAM 5055S P 58 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5056SO 16 channel Isolated Digital Output Module with LED The ADAM 5056SO provides 16 channels source type isolated digital output for critical environments need individual channel isolating protection Addition to the source output wiring all of the specification and command sets are the same with ADAM 5056S ADAM 5056SO ADAM 505150 i UL 1 1 is nti J Du ah 33 i l l l l 4 Figure 45 ADAM 5056SO module front view Application wiring External Internal 5 40 Voc eit m OO Jo D IgG oloo OO e ae a ollsxlo D ojo ojojo ojo jp jojojo ale REIS e o z gt Figure 46 ADAM 5056SO module wiring diagram ADAM 5000 Series I O Module User s Manual P 59 I O Module Introduction Technical Specification of ADAM 5056SO Points 16 8 channel group Digital Output Open collector to 40 V 200 mA max load per channel Optical Isolation 2500 VDC Opto isolator response 25 us time Supply Voltage 5 40 VDC Power consumption 0 6 W LED Indicator I O Connector Type On when active 21 pin plug terminal Table 23 Technical specificatio
26. andard supports half duplex communication This means that just two wires are used to transmit and receive data D T E CANTransceiver Wiring connections are as follows Table 2 ADAM 5095 DTE Pin Wiring ADAM 5095 DTE DB9 M Pin DTE Pin Signal Signal Maximum Bit Rate vs Bus Length For a Controller Area Network the maximum possible bus length depends on the bit rate The bit rate can always be slower than the maximum possible speed for a given bus length Conversely the bus length can be shorter than the maximum possible bus length for a given transmission speed Table 3 Maximum Bit rate vs Bus Length P 101 ADAM 5000 Series I O Module User s Manual I O Module Introduction Overview Compatible ADAM 5000 Series Main Units The ADAM 5030 is a 2 slot SD storage module to be implemented with the following Advantech ADAM 5000 series main units ADAM 5550KW ADAM 5030 SD storage module The ADAM 5030 storage module provides 2 slotof SD cards When you insert the SD card into the ADAM 5030 please remove the name plate first Please be careful to remove it If you remove it with great exertion it may be damaged ADAM 5030 Diagram m _ 25D 2USB o ADAM 5030 Figure 69 ADAM 5030 module frontal view P 102 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5030 USB Type USB Rev 2 0 Compliant USB N
27. bit 8 channel Thermocouple Independent input module that provides programmable input ranges on all channels It accepts Various Thermocouple inputs Type J K T E R S B and provides data to the host computer in engineering units C In order to satisfy various temperature requirements 1n one module each analog channel is allowed to configure an individual range for several applications ADAM 5018P Ilnmnannnnn Figure 18 ADAM 5018P module frontal view P 28 ADAM 5000 Series I O Module User s Manual Application wiring I O Module Introduction Figure 19 Thermocouple input Technical specifications of ADAM 5018P Analog Input Channels Seven differential amp independent thermocouple Input Type mV V mA Thermocouple Input Range 15 mV 50 mV 100 mV 500mV 1V 2 5 V and 20 mA T C Type and Temperature J 0 to 760 C Range K 0 to 1370 C T 100 to 400 C E 0 to 1400 C R 500 to 1750 C S 500 to 1750 C B 500 to 1800 C Isolation Voltage 3000 Voc Sampling Rate 10 samples sec Selected by Utility Input Impedance 20 Mohms Voltage input 120 Q current input Bandwidth 13 1 Hz 50 Hz 15 72 Hz 60 Hz Accuracy 0 1 or better Zero Drift t6gV PC Span Drift 325 PPM C CMR 50 60 Hz 92 dB min Power Consumption 0 5 W Table 10 Technical specifications of ADAM 5018P ADAM 5000 Series I O Module User s Manual P 29 I O Module In
28. d I E 3 T T u Ha l bc 4 Load Vi P 62 ADAM 5000 Series I O Module User s Manual I O Module Introduction 5 Relay Output Modules ADAM 5060 relay output module The ADAM 5060 relay output module is a low cost alternative to SSR modules It provides 6 relay channels two of Form A and four of Form C ADAM 5060 6 Relay ADAM 5060 p CREER C C C LET i j C c L i 1 o Figure 47 ADAM 5060 module frontal view Application wiring NO Form A C NO NC NO 4 C Form C Figure 48 Relay output ADAM 5000 Series I O Module User s Manual P 63 I O Module Introduction Technical specifications of ADAM 5060 Points 6 two Form A and four Form C Contact rating 5 pv 2A DV G6 A Breakdown voltage 500 Vac 50 60 Hz Relay on time typical 3 ms Relay off time typical ms Total switching time 10 ms Insulation resistance 1000 MQ min 500 Voc Power consumption 0 7 W Table 24 Technical specifications of ADAM 5060 P 64 ADAM 5000 Series I O Module User s Manual I O Module Introduction The ADAM 5068 relay output module provides 8 relay channels of Form A Switches can be used to control the solid state relays ADAM 5068 Figure 49 ADAM 5068 module frontal view Application wiring NO Form A C NO Figure 50 Relay output ADAM 5000 Series I O Module User s Manual P 65 I O Module Introduct
29. e the second port on the ADAM 5090 in slot 1 is defined to port 12 Jumper Settings This section tells you how to set the jumpers to configure your ADAM 5090 module There are four jumpers on the PC Board User can choose RI signal or 5V output for each port by setting these jumpers system default is RI signal The following figure shows the location of the jumpers Port Part2 Ports Port4 Jumper Figure 67 Jumper locations on the CPU card J J J3 J4 3 9 R g e 8 5V Output RI Signal Default Figure 68 Jumper Settings P 92 ADAM 5000 Series I O Module User s Manual I O Module Introduction LED Status of the ADAM 5090 Module There are two LEDs for each port on the front panel of the ADAM 5090 to display specific communication status a Green LED RX Data Receiving Status the LED indicator is on when the port is receiving data b Orange LED TX Data Transmitting Status the LED indicator is on when the port is transmitting data Configure Your ADAM 5090 Module This section explains how to configure an ADAM 5090 module before implementing it into your application Quick Start Step 1 Get your host PC ready and run the ADAM 5510 Utility Software Step2 Install the ADAM 5090 Module and power on your ADAM 5510 main unit Step3 Download the executable program to the main unit Step 4 Monitor the ADAM 5090 Module s current status from the PC through the utility software A basic example
30. e Coefficient 25 PPM C Programmable Output Slope 0 125 128 0 mA sec 0 0625 64 0 V sec Current Load Resistor 0 500 Ohms source Power Consumption 2 5W Max Table 11 Technical specifications of ADAM 5024 ADAM 5000 Series I O Module User s Manual P 31 I O Module Introduction 3 Analog I O Modules Calibration Analog input output modules are calibrated when you receive them However calibration is sometimes required No screwdriver is necessary because calibration is done in software with calibration parameters stored in the ADAM 5000 analog I O module s onboard EEPROM The ADAM 5000 system comes with the ADAM utility software that supports calibration of analog input and analog output Besides the calibration that is carried out through software the modules incorporate automatic Zero Calibration and automatic Span Calibration at boot up or reset Analog input module calibration Modules ADAM 5017 5017H 5018 1 Apply power to the ADAM 5000 system that the analog input module is plugged into and let it warm up for about 30 minutes 2 Assure that the module is correctly installed and is properly configured for the input range you want to calibrate You can do this by using the ADAM utility software 3 Use a precision voltage source to apply a span calibration voltage to the module s V0 and VO terminals See Table 12 for reference voltages for each range Figure 22 Applying calibration voltage P 32 ADAM 50
31. e actual counter value a formula such as follows can facilitate an easy calculation from the initial counter value overflow value and current counter value Vtol Vini Vmin or Vmax 1 x Vvf Vini Vcur Vtol totalizer value Vini initial counter value V min min counter value 0 fixed value V max max counter value 2 2 4 294 967 295 fixed value Vvf overflow value Veur current counter value Example If the initial value 710 overflow value 74 min value 0 current counter value 3 the totalizer value could be calculated as Totalizer value 110 0 1 xl 41 110 312 51 P 84 ADAM 5000 Series I O Module User s Manual I O Module Introduction Features Digital Output Mapping If users want to use Digital Output function ADAM utility is available for setting specifically which module channel or slot to receive the alarm signals File Tools Help ADAM 4000 5000 Series Setup Utility Program po eram e simi 1 S PC di comt egi cow2 c i 00 5000 lj 50 5024 lj 51 5013 amp lj 52 5018 el Wy 53 5081 CHO i cH 1 cH IBS CH 3 ADAM 508l Channel 0 General Setting Input Range Bi direction counter Data Format Hes Channel Setting Reading foooon4 E A ph poll ae Clear H Latch Clear L Latch PUE gcn c TEXT Clear Counter Digital filter scale 8765000 00050 us Off Initial value
32. ent and monitoring applications Its opto isolated inputs provide 3 000 Vc of isolation between the analog input and the module protecting the module and peripherals from damage due to high input line voltage Note Owing to the conversion time required by the A D converter the initialization time of each ADAM 5013 module is 5 seconds Thus the total initialization time will be about 20 seconds if all 4 I O slots in an ADAM 5000 main unit contain ADAM 5013 modules ADAM 5013 3 RTD ADAM 5013 TT Eig Oy SENi SEN 5 Enak amp AGND Ev SENT Bry SENI I5 EXC oy AGND ENEI Ga SENI SEMI 15 ERGE Sy LENDS oy 6 Figure 1 ADAM 5013 module frontal view P 4 ADAM 5000 Series I O Module User s Manual I O Module Introduction Application wiring EXCH SEH Os SENO EXCO A GHD Figure 2 RTD inputs ADAM 5000 Series I O Module User s Manual P 5 I O Module Introduction Technical specifications of ADAM 5013 Analog input channels three Input type PtorNi RTD RTD type and temperature range Pt 100 to 100 C a 0 00385 Pt 0 to 100 C a 0 00385 Pt 0 to 200 C a 0 00385 Pt 0 to 600 C a 0 00385 Pt 100 to 100 C a 0 00392 Pt 0 to 100 C a 0 00392 Pt 0 to 200 C a 0 00392 Pt 0 to 600 C a 0 00392 Ni 80 to 100 C Ni 0 to 100 C Isolation voltage 3000 Voc Sampling rate 10 samples sec total Input impedance 2 MQ Bandwidth 13 1 Hz 50 Hz 15 72 Hz
33. h input channel has 3000 V of optical isolation between the outside analog input line and the module protecting the module and peripherals from high input line voltages Additionally the module uses analog multiplexers with active overvoltage protection The active protection circuitry assures that signal fidelity is maintained even under fault conditions that would destroy other multiplexers The analog inputs can withstand a constant 70 Vp p input with 15V supplies The jumpers of ADAM 5017UH are designed for current input ADAM 5017UH C C C amp C ls 3 S C a n C E EJ ls C L C i E wo LU Figure 11 ADAM 5017UH module frontal view ADAM 5000 Series I O Module User s Manual P 21 I O Module Introduction Application wiring Figure 13 Process current input P 22 ADAM 5000 Series I O Module User s Manual I O Module Introduction AIN AIN Internal i Field side Figure 14 Locations of RC Filter Jumper setting spi s 1 Dim Y On Board RC Filter CHO R35 amp C12 CH6 R41 amp C18 CH7 R42 amp C19 Figure 15 Locations of RC Filter Jumper setting Note To maintain measurement accuracy please short channels not in use ADAM 5000 Series I O Module User s Manual P 23 I O Module Introduction Technical specifications of ADAM 5017UH Analog Input Channels Eight differential Resolution 12 bits Input Type mV V mA Input
34. i Level 1 2 3 to 5 V Isolated Voltage 1000 Vis Mode Counter Up Down Bi direction Frequency Programmable Digital Noise 8 65000 u sec Filter Table 26 ADAM 5080 technical specifications ADAM 5000 Series I O Module User s Manual P 79 I O Module Introduction ADAM 5081 4 ch 8 ch High Speed Counter Frequency Mode Selection Users can select Bi direction Up Down Counter or Frequency option as shown in Figure 55 Note this high speed module can support ADAM 5550 Series ADAM 5000 485 ADAM 5000E ADAM 5000 TCP and ADAM 5510M TCP fmi m ben Paling coment cite Std dab ae Figure 55 Counter Frequency Mode Note All four channels of ADAM 5081 will operate simultaneously in the mode you have selected 1 e If you switch the ADAM 5081 to Counter Mode all four channels will operate in Counter Mode Features Counter Mode Up Down Counting The Up Down Counter Function offers two types of counting Up Counting increasingly and Down Counting decreasingly Up Counting when COA and COA sense any input signals the counter counts up Down Counting when COB and COB sense any input signals the counter counts down On receiving Up and Down signal simultaneously the counter will not perform each specific counting accordingly but will remain at the previous counting value since these simultaneous signals won t have any effect on counting values P 80 ADAM 5000 Series I O Module User s Manual I O M
35. ic level 1 4V to 30V Internal Logic Figure 30 Wet contact signal input ADAM 5050 V55 Internal Logic c Bn RN Bw H2 limits current to 100 mA Open Collector Nes Power Ground Power Ground Figure 31 Digital output used with SSR ADAM 5050 5056 P 42 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5050 Points 16 Channel Setting Bitwise selectable by DIP switch Digital Input Dry Contact Logic Level 0 close to GND Logic Level 1 open Wet Contact Logic Level 0 2 V max Logic Level 1 4 V to 30 V Digital Output Open collector to 30 V 100mA max load Power Dissipation 450 mW Power Consumption 0 4 W Table 16 Technical specifications of ADAM 5050 ADAM 5000 Series I O Module User s Manual P 43 I O Module Introduction ADAM 5051 D 16 channel digital input module The ADAM 5051 provides sixteen digital input channels The ADAM 5510 can use the module s digital inputs to determine the state of limit or safety switches or to receive remote digital signals ADAM 5051 5051 D lh E 16 Di ADAM 5051 De SI 7 P T E HEZXIIIINIIPIPZIIPIEII ni DE el Oh ne Di Di Di l E n 6 ol DI ol ol Di Figure 32 ADAM 5051 module frontal view Application wiring 5WDC d t Digital TTL Input Input Internal Logic Power GH
36. ion Technicat specifications of ABAM 566Ia _HW __ __ Points 8 Form A Contact Rating AC 120 V 90 5 ADC 30 VV 1A Breakdown Voltage 500 Vac 50 60 Hz Relay On Time typical 7 msec Relay Off Time typical 3 msec Total Switching Time 10 msec Power Consumption 2 0 W Table 25 Technical specifications of ADAM 5068 P 66 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5069 relay output module The ADAM 5069 relay output module provides 8 relay channels of Form A Switches can be used to control the relays Considered to user friendly the ADAM 5069 also built with LED indicator for status reading easily And it also provides a choice to clear or keep output status when reset by adjusting a jumper Specification Number of Output Channel 8 Form A Contact Rating AC 250V 95A DC 30V 295A Breakdown Voltage 750 V 4c 50 60 Hz Insulation Resistance 1000M 500Vpc LED Indicator On Active Off Non active Power Consumption 0 25W typical 2 2W Max Isolation Resistance 4000 Vrms Relay response Time ON 5 ms Off 5 6 ms Clear or Keep Relay Status when reset selectable by jumper ADAM 5000 Series I O Module User s Manual P 67 I O Module Introduction 8 Power Relay o ADAM 5069 Le TUS im TN zs fs mnm E r1 5 ie OOOOOOVOUDOOOODG Figure 51 the wiring of ADAM 5069 module frontal view P 68 ADAM 5000 Series I O
37. ital output modules in the ADAM 5000 series The addition of these solid state digital I O devices allows these modules to control or monitor the interfaces between high power DC or AC lines and TTL logic signals A command from the host converts these signals into logic levels suitable for the solid state I O devices Points Digital output 16 Open collector to 30 V 100 mA max load Power dissipation Power consumption 450 mW 0 25 W Table 21 Technical specifications of ADAM 5056 P 56 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5056S 16 channel Isolated Digital Output Module with LED The ADAM 5056S provides 16 isolated digital output channels for critical environments need individual channel isolating protection Different from other ADAM 5000 I O modules ADAM 5056S designed with 21 pins plug terminal rz oho i D poz i 003 ft en ms fic 008 fc 007 C come O ako IO nna I1 n s IC non onn pbi O op O sois 1 po O cou WC Figure 43 ADAM 5056S module front view Application wiring i 5W Internal i Exlernal Figure 44 ADAM 5056S module wiring diagram ADAM 5000 Series I O Module User s Manual P 57 I O Module Introduction Technical Specification of ADAM 5056S Points 16 8 channel group Digital Output cane Optical Isolation 2500 Voc Opto isolator response time 25 us Supply Volt
38. l I O Module Introduction ADAM 5091 4 port RS 232 Communication Module with share interrupt Only for ADAM 5550 Series Bi direction Communication The ADAM 5091 is equipped with four RS 232 ports with share interrupt which makes it especially suitable for bi direction communication It can simultaneously read data from other third party devices such as Bar Code and PLC as long as these devices are equipped with a RS 232 interface Furthermore the ADAM 5091 can issue commands to control other devices It is fully integrated with the ADAM 5550 and transmits data to each other through the RS 232 port The whole integrated system is an intelligent stand alone system and can connect and issue commands to control devices such as printers and PLCs in remote factory location The ADAM 5091 transmits and receives data by sharing interrupt communication and each port can receive up to 128 bytes in the FIFO For continuous data longer than 128 bytes please refer to Table 27 for Baud Rate setting to avoid data loss Baud Rate 115200 57600 38400 19200 9600 4800 2400 bps Polling iid 555 13936 6666 3333 36066 1253333 interval ms Table 27 Baud Rate setting reference table Communication Backup Function With the ADAM 5091 you can implement dual communication channels between your PC and the ADAM system Even when one of the two communication channels is down your system can still function
39. l 1 open Wet Contact Logic Level 0 3 V max Logic Level 1 10 to 50 V Dry Contact amp Wet contact Selectable Optical Isolation 2500 Voc Opto isolator response time 25 us Over voltage Protect 70 Voc Power Consumption 0 68 W LED Indicator On when active I O Connector Type 21 pin plug terminal Table 20 Technical specification of ADAM 5055S ADAM 5000 Series I O Module User s Manual P 53 I O Module Introduction Jumper Setting Below is the jumper setting for both JP1 amp JP2 JP1 DIO DI3 JP2 DI4 DI17 awa Wet Contact Dry Contact Dry Contact wiring 5V 5V ama ADAM 5055S s GNDO Internal Logic Note Be sure to adjust the jumper to the right place P 54 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5056 D 16 channel digital output module w LED The ADAM 5056 features sixteen digital output channels The digital outputs are open collector transistor switches that you can control from the ADAM 5000 main unit You also can use the switches to control solid state relays ADAM 5056 Figure 41 ADAM 5056 module frontal view Application wiring Vss Internal Logic Power Ground Power Ground Figure 42 Digital output used with SSR ADAM 5050 5056 ADAM 5000 Series I O Module User s Manual P 55 I O Module Introduction Technical specifications of ADAM 5056 There are 16 point digital input and 16 point dig
40. mV voltage inputs 1 V 2 5 V current input 420 mA requires 125 ohms resistor and thermocouple input J K T R S E B The module forwards the data to the host computer in engineering units mV V mA or temperature C An external CJC on the plug in terminal is designed for accurate temperature measurement ADAM 5018 OHOOOOOO0000 rant Figure 16 ADAM 5018 module frontal view ADAM 5000 Series I O Module User s Manual P 25 I O Module Introduction Figure 17 Thermocouple input P 26 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5018 Analog Input Channels Seven differential Input Type mV V mA Thermocouple Input Range 15 mV 50 mV 100 mV 500 mV 1 V 2 5 V and 20 mA T C Type and Temperature J 0 to 760 C Range K 0 to 1370 C T 100 to 400 C E 0 to 1400 C R 500 to 1750 C S 500 to 1750 C B 500 to 1800 C Isolation Voltage 3000 Voc Sampling Rate 10 samples sec total Input Impedance 2 Mohms Bandwidth 13 1 Hz 50 Hz 15 72 Hz 60 Hz Accuracy 0 1 or better Zero Drift 0 3 V C Span Drift 25 PPM C CMR 50 60 Hz 92 dB min Power Consumption 1 2 W Table 9 Technical specifications of ADAM 5018 ADAM 5000 Series I O Module User s Manual P 27 I O Module Introduction ADAM 5018P 7 channel thermocouple input module The ADAM 5018P is a 16
41. n of ADAM 5056SO P 60 ADAM 5000 Series I O Module User s Manual I O Module Introduction The ADAM 50578 provides 32 isolated digital output channels for critical environments need individual channel isolating protection Different from other ADAM 5000 I O modules ADAM 50578 designed with 40 pin flat cable wiring terminal ADAM 5057S vec Gnd Technical specification of ADAM 5057S Points 32 Digital Output Contact with ADAM 3920R Optical Isolation 2500 Voc Contact Rating 10 A 250Vac 10 A 30Vpc Power Input IDA Vii Power consumption 1 W max Relay Type SPST Form A I O Connector Type 40 pin flat cable wiring terminal Application wiring ADAM 5000 Series I O Module User s Manual P 61 I O Module Introduction intema External Connect to ADAM 3920R i DOOD DOO1 D O2 DOOS3 DOO4 DOOS s DOO DOOSDOD o p ADAM 3920R i x at Wiring Board 5 gs a 1 1015 gE n PCL 10220 M Lini EN Note Please be noted that the Cable PCL 10220 amp Wiring Board ADAM 3920R are additional option Pin Assignments for ADAM 3920R i a A RECS Y ROTE VDODO 33 1 lt lt oo oo So BN NN K E e gogo 2 0 SAS x og oo 2 d No MINA E E ujo e Q A L1 EI L O O LI rs L d I L L d D J L L Z r g LII T 1 i RS NUES u T EE
42. needed for calibration 4 mA and 20 mA l Apply power to the ADAM 5000 system including the analog output module for about 30 minutes 2 Assure that the module is correctly installed and that its configuration is according to your specifications and that it matches the output range you want to calibrate You can do this by using the ADAM utility software 3 Connect either a 5 digit mA meter or voltmeter with a shunt resistor 250 ohms 01 and 10 ppm to the screw terminals of the module Figure 26 Output module calibration ADAM 5000 Series I O Module User s Manual P 39 I O Module Introduction 4 Issue the Analog Data Out command to the module with an output value of 4 mA Check the actual output value at the modules terminals If this does not equal 4 mA use the Trim option in the Calibrate submenu to change the actual output Trim the module until the mA meter indicates exactly 4 mA or in case ofa voltage meter with shunt resistor the meter indicates exactly 1 V When calibrating for 20 mA using a voltage meter and shunt resistor the correct voltage should be 5 V 6 Issue the 4 mA Calibration command to indicate that the output is calibrated and to store the calibration parameters in the module s EEPROM 7 Execute an Analog Data Out command with an output value of 20 mA The module s output will be approximately 20 mA Execute the Trim Calibration command as often as necessary until the output curren
43. odule Introduction COA COA COB D COB D Figure 56 Wiring for Up Down Counting Note Ifyou need only one type of counting connect COA and COA for Up Counting only or connect COB and COB for Down Counting only Bi direction Counting For implementing Bi direction Counting you need to connect COB D and COB D to implement the control function for Up Down Counting Up Counting when the input signal is within logic level 1 the counter value increases COA CoA C0B D COB D Figure 57 Wiring for Bi direction Counting Down Counting when the input signal is within logic level 0 the counter value decreases Note If users select TTL mode and don t connect COB COB the counter value will increase If users select Isolated mode and don t connect COB COB the counter value will decrease ADAM 5000 Series I O Module User s Manual P 81 I O Module Introduction Features Frequency Mode If users want to select frequency mode they can only utilize Up Counting type and can only connect to COA and COA COA CoA COB D COB D Figure 58 Wiring for Frequency Mode Features Alarm Setting According to your application purposes you can run the utility program to set different limit values for High Low Alarm P 82 ADAM 5000 Series I O Module User s Manual I O Module Introduction Mill 00 5000 amp lj 50 5024 a lj 51 5013 2 5018 3
44. on I O Slots and I O Ports Numbering The ADAM 5091 module provides four RS 232 ports for communication with target devices For more information about the number of slot and COM port you may refer to the section of ADAM 5091 COM port configuration in ADAM 5550KW series Manual LED Status of the ADAM 5091 Module There are two LEDs for each port on the front panel of the ADAM 5091 to display specific communication status a Red LED RX Data Receiving Status the LED indicator is on when the port is receiving data b Green LED TX Data Transmitting Status the LED indicator is on when the port is transmitting data P 98 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5095 2 port CAN Serial Communication Module with isolation protection Only for B version of ADAM 5550 Series ADAM 5095 is a special purpose communication module that offers the connectivity of the Controller Area Network CAN With its built in CAN controllers the ADAM 5095 provides bus arbitration and error detection with an automatic transmission repeat function This drastically reduces the chance of data loss and ensures system reliability The on board CAN controllers are located at different positions in the memory and you can run both CAN controllers independently at the same time With high compatibility the ADAM 5095 can be used in diverse systems ADAM 5095 Diagram 2 CAN o ADAM 5095 Specification
45. or response time 25 us Over voltage Protection ds Power Consumption 1 W max I O Connector Type 40 pin flat cable wiring terminal P 50 ADAM 5000 Series I O Module User s Manual I O Module Introduction Application Wiring EE COM 1 Ea aiie i4 i6 i8 ad E nen usu 113579 1 13 15 17 13 II C ISI is JG JE oe ag e hebes hes Les Les hes os Don sistststsistsfsfols AP Y 10V 30V ADAM 5000 Series I O Module User s Manual P 51 I O Module Introduction ADAM 5055S 16 channel Isolated Digital I O Module with LED The ADAM 5056S provides 8 isolated digital input and 8 isolated output channels for critical environments need individual channel isolating protection Different from other ADAM 5000 I O modules ADAM 5055S designed with 21 pins plug terminal ADAM 5055S ral jio JLILILI LILILILILIL Lil Sa J Figure 39 ADAM 5055S module front vie Application Wiring 45V Internal External i Figure 40 ADAM 5055S module wiring diagram P 52 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specification of ADAM 5055S Points 16 Digital Output 8 8 channel group Open collector to 40 V 200mA max load per channel Optical Isolation 2500 Voc Opto isolator response time 25 us supply Voltage 5 40 Voc Digital Input 8 4 channel group Dry Contact Logic Level 0 close to GND Logic Leve
46. puter in engineering units mV V or mA This module is an extremely cost effective solution for industrial measurement and monitoring applications Its opto isolated inputs provide 3 000 V of isolation between the analog input and the module protecting the module and peripherals from damage due to high input line volt age Additionally the module uses analog multiplexers with active over voltage protection The active protection circuitry assures that signal fidelity 1s maintained even under fault conditions that would destroy other multiplexers This module can withstand an input voltage surge of 70 Vp p with 15 V supplies The jumpers of ADAM 5017 are designed for current input ADAM 5017 L1 L1 Cl C L1 L L1 L1 C L L1 c L1 L1 C L1 Figure 4 ADAM 5017 module frontal view ADAM 5000 Series I O Module User s Manual P 9 I O Module Introduction Application wiring Figure 5 Millivolt and volt input Figure 6 Process current input Note To keep measurement accuracy please short the channels that are not in use P 10 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5017 Analog Input Channels Eight differential Input Type mV V mA 150 mV 500 mV 1V 5V 10V Input Range and 20 mA Isolation Voltage 3000 Voc Sampling Rate 10 samples sec total Analog Input Signal Limit 15 V max Max allowable vol
47. r Data Eomak Urdste Data een CH g OA HI Alam 2 RP LOI A2 OH CH Bona HI Als C Ol LL Alem Orid CH z Jun HI Alas FE iri LE Ales Cri CH Dono HI Alem EY Hf LOI ale rfl COM 2 9500 be Pooling cumeni data 2001 98 18 AM Figure 55 Counter Frequency Mode Note All four channels of ADAM 5080 will operate simultaneously in the mode you have selected 1 e If you switch the ADAM 5080 to Counter Mode all four channels will operate in Counter Mode Features Counter Mode Up Down Counting The Up Down Counter Function offers two types of counting Up Counting increasingly and Down Counting decreasingly Up Counting when COA and COA sense any input signals the counter counts up Down Counting when COB and COB sense any input signals the counter counts down On receiving Up and Down signal simultaneously the counter will not perform each specific counting accordingly but will remain at the previous counting value since these simultaneous signals won t have any effect on counting values P 72 ADAM 5000 Series I O Module User s Manual I O Module Introduction COA COA COB D COB D Figure 56 Wiring for Up Down Counting Note Ifyou need only one type of counting connect COA and COA for Up Counting only or connect COB and COB for Down Counting only Bi direction Counting For implementing Bi direction Counting you need to connect COB D and
48. s I O Module User s Manual P 69 I O Module Introduction Alarm Setting Function While in counter mode you can set alarm status Disable and Latch If you want to disable it you can select Disable If Latch status is selected it means the Alarm status will be latched whenever the alarm is being triggered Once the alarm status being latched it will thereafter stay in that triggered state Users will have to issue a Clear Alarm Status command to return the latched alarm status back to normal Users can designate the high limit value and low limit value to regulate your alarm behavior through the utility program Digital Output Mapping Users can either run the utility program or issue a Set Alarm Connection command to designate a specific digital output module for the alarm signal to be sent through ADAM 5080 Module Diagram Figure 52 ADAM 5080 Module P 70 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5080 Application Wiring Internal Logic Figure 54 TTL Input Level ADAM 5000 Series I O Module User s Manual P 71 I O Module Introduction ADAM 5080 Counter Frequency Mode Selection Users can select Bi direction Up Down Counter or Frequency option as shown in Figure 44 1 mm 7 i ibe Pane ADAM IUUD See zebup Ubbi Frogism B Ik He a ssim I l ADAM 5000 DOM COM n 00 5000 i 50 5524 General Setting a B msna phe jes Sa 52 ma Input Hange 53 c
49. t is equal to exactly 20 mA 9 Execute the 20 mA Calibration command to indicate that the present output is exactly 20 mA The analog output module will store its calibration parameters in the unit s EEPROM Un oo P 40 ADAM 5000 Series I O Module User s Manual I O Module Introduction 4 Digital Input Output Modules ADAM 5050 16 channel universal digital I O module The ADAM 5050 features sixteen digital input output channels Each channel can be independently configured to be an input or an output channel by the setting of its DIP switch The digital outputs are open collector transistor switches that can be controlled from the ADAM 5000 The switches can also be used to control solid state relays which in turn can control heaters pumps and power equipment The ADAM 5000 can use the module s digital inputs to determine the state of limit or safety switches or to receive remote digital signals Warning A channel may be destroyed if it is subjected to an input signal while it is configured to be f an output channel Figure 27 Dip switch setting for digital I O channel ADAM 5050 Dip Switch Key ON z Digital Output OFF z Digital Input 1B WOW ADAM S050 EPP PERE FF XU Vn Las Figure 28 ADAM 5050 module frontal view ADAM 5000 Series I O Module User s Manual P 41 I O Module Introduction oplicati gi Figure 29 Dry contact signal input ADAM 5050 45V toV Logic level 0 2V max Log
50. tage difference between two connectors in a 15 V max module Input Impedance 2 Mohms Bandwidth 13 1 Hz 50 Hz 15 72 Hz 60 Hz Accuracy 0 1 or better Zero Drift 1 5 uV PC Span Drift 25 PPM C CMR 50 60 Hz 92 dB min Power Requirements 10 to 30 Voc non regulated Power Consumption 1 2 W Table 4 Technical specifications of ADAM 5017 ADAM 5000 Series I O Module User s Manual P 11 I O Module Introduction ADAM 5017P 8 channel analog input module with independent input range The ADAM 501 7P is a 16 bit 8 channel analog differential input and independent configuration module It accepts mill volt inputs 150mV 500mV 0 150mV 0 500mV 0 1V 0 SV 0 10V 0 15V voltage inputs 1V 5V 10V and 20V and current input 420 mA 4 20mA requires 120 ohms resistor The module provides data to the host computer in engineering units mV V supports uni poloar and bipolar or mA This module is an extremely cost effective solution for industrial measurement and monitoring applications Its high common mode provides 200 V protecting the module and peripherals from damage due to high input line volt age Additionally the module uses analog multiplexers with active over voltage protection The active protection circuitry assures that signal fidelity is maintained even under fault conditions that would destroy other multiplexers This module can withstand an input volt
51. te that the module zero calibration must be completed prior to the span calibration Note Iftheabove procedure is ineffective the user must first issue an RTD Self Calibration command aaSi2 to the module and then complete steps 4 and 5 after self calibration is complete ADAM 5000 Series I O Module User s Manual P 7 I O Module Introduction Calibration resistances ADAM 5013 Input Range Input Range Span Zero Code Hex Calibration Calibration Resistance Resistance 20 Pt 100 to 100 C A 0 00385 140 Ohms 60 Ohms 2 Pt 0 to 100 C A 0 00385 140 Ohms 60 Ohms 22 Pt 0 to 200 C A 0 00385 200 Ohms 60 Ohms 23 Pt 0 to 600 C A 0 00385 440 Ohms 60 Ohms 24 Pt 100 to 100 C A 0 00392 140 Ohms 60 Ohms 25 Pt 0 to 100 C A 0 00392 140 Ohms 60 Ohms 26 Pt 0 to 200 C A 0 00392 200 Ohms 60 Ohms 2d Pt 0 to 600 C A 0 00392 440 Ohms 60 Ohms 28 Ni 80 to 100 C 200 Ohms 60 Ohms 29 Ni 0 to 100 C 200 Ohms 60 Ohms P 8 ADAM 5000 Series I O Module User s Manual Table 3 Calibration resistances of ADAM 5013 I O Module Introduction ADAM 5017 8 channel analog input module The ADAM 5017 is a 16 bit 8 channel analog differential input module that provides programmable input ranges on all channels It accepts mill volt inputs 150mV 500mV voltage inputs 1 V 5V and 10V and current input 20 mA requires 120 ohms resistor The module provides data to the host com
52. tection 10 kV Communication Max 100 m 20 Mbps 32 slave modules 50 m 20 Mbps 64 slave modules Distance Communication Slave 2 Rings with Max 128 1 Ring with 64 slaves Module Number Operating Temperature 0 50 C 32 122 F Table 31 Technical specifications of ADAM 5202 P 105 ADAM 5000 Series I O Module User s Manual
53. through the alternative communication channel This dual communication channels can be implemented by application software P 95 ADAM 5000 Series I O Module User s Manual I O Module Introduction ADAM 5091 Module Diagram 4 Pea ADAM 5081 TE Al TE AX TE Ford Ri TE Ford Figure 65 ADAM 5091 Module ADAM 5091 Application Wiring 4 RES o ADAM 5091 RJ 48 Communication Cable HNWOO g Hy oo gg OO goo L Li E L Figure 66 ADAM 5091 Application Wiring P 96 ADAM 5000 Series I O Module User s Manual I O Module Introduction PIN Mapping PIN Name RJ 48 DB9 DCD 1 l RX TX DTR GND DSR RTS ICTS RI or 5V GND Oo AIL 0 t d WwW bd lt x lolol l aI nln AIIN m c Table 28 Pin Mapping ADAM 5091 Technical Specification Provides communication ports for the ADAM Function 5550 to integrate other devices with communication function into your system Electrical Interface 4 ports RS 232 Communication Rates 4800 9600 19200 38400 115200bps FIFO 128 bytes per UART Tx Rx Indicator Tx Green Rx Red Power Required 100mA 5Vpc Default in RI mode Table 29 ADAM 5091 technical specifications User can define the communication ports with 5VDC output by switching the jumper and the maximum current output is 400mA P 97 ADAM 5000 Series I O Module User s Manual I O Module Introducti
54. troduction 2 Analog Output Modules ADAM 5024 4 channel analog output module The ADAM 5024 is a 4 channel analog output module It receives its digital input through the RS 485 interface of the ADAM 5510 system module from the host computer The format of the data is engineering units It then uses the D A converter controlled by the system module to convert the digital data into output signals You can specify slew rates and start up currents through the configuration software The analog output can also be configured as current or voltage through the software utility The module protects your equipment from ground loops and power surges by providing opto isolation of the D A output and transformer based isolation up to 500 V pe Slew rate The slew rate is defined as the slope indicated the ascending or descending rate per second of the analog output from the present to the required ADAM 5024 on 4 MO OQ ADAM 5024 C J CJ C L ml 7 C L CJ C C C Figure20 ADAM 5024 module frontal view P 30 ADAM 5000 Series I O Module User s Manual I O Module Introduction Application wiring mA Output V Output Figure 21 Analog output Technical specifications of ADAM 5024 Accurac 0 1 of FSR for current output 0 29 of d FSR for voltage output Voltage output 30 uV C Current output Zero Drift 20 2 pAPC Span Temperatur
55. troduction ADAM 5017H 8 channel high speed analog input module The ADAM 5017H is a 12 bit plus sign bit 8 channel analog differential input module that provides programmable input ranges on each channel It accepts mill volt inputs 500 mV 0 500 mV voltage inputs 1 V 0 1 V 2 5 V 0 2 5 V 5 V 0 5 V 10 V and 0 10 V and current inputs 0 20 mA and 4 20 mA it was built in a 200 ohms resistor The module provides data to the host microprocessor in engineering units mV V or mA or two s complement format Its sampling rate depends on the data format received up to 100 Hz total Each input channel has 3000 Vc of optical isolation between the outside analog input line and the module protecting the module and peripherals from high input line voltages Addition ally the module uses analog multiplexers with active over voltage protection The active protection circuitry assures that signal fidelity is maintained even under fault conditions that would destroy other multiplexers The analog inputs can withstand a constant 70 Vp p input with 15V supplies The jumpers of ADAM 5017H are designed for current input ADAM 5017H CJ Li CI C CJ c c L C Figure 10 ADAM 5017H module frontal view P 16 ADAM 5000 Series I O Module User s Manual I O Module Introduction Application wiring Figure 12 Process current input ADAM 5000 Series I O Module User s Manual P 17 I O Module Introduction
56. umber 2 Storage Type SD Secure Digital Card Storage Number 2 Operating Temperature 0 60 C 32 140 F Certification CE Power Consumption 3 W Max Max Storage 1G Max x 2 Format FATI6 Surge Protection 10kW Hot Swap Yes Table 30 Technical specifications of ADAM 5030 P 103 ADAM 5000 Series I O Module User s Manual I O Module Introduction 9 Motion Module Overview Compatible ADAM 5550 Series Main Units The ADAM 5202 is a 4 port AMONet Master module to be implemented with the following Advantech ADAM 5000 series main units ADAM 5550KW Only ADAM 5202 4 port AMONet Master Module The ADAM 5202 provides 4 port AMONet Master Module When you insert the SD card into the ADAM 5202 please remove the name plate first Please be careful to remove it If you remove it with great exertion it may be damaged ADAM 5202 Diagram 2 Ring Oo ADAM 3202 n o eo Ri TE eo o AQ TX eo e RE m o o Figure 70 ADAM 5202 module frontal view P 104 ADAM 5000 Series I O Module User s Manual I O Module Introduction Technical specifications of ADAM 5202 Certifications CE Power Consumption 0 5 W Max Connectors RJ 45 LED Indictors Active Error Each Port Number of Rings 2 Transmission Speed 2 5 5 10 or 20 Mbps with automatic data flow control Serial Interface Half duplex RS 485 with transformer isolation Cable Type CATS UTP STP Ethernet cable Surge Pro
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ADAM 5000_IO_Module_Manual_Ed 2.11