Remote Input Module User Manual
Contents
1. Short lt 50 lt 50 Normally Closed Sensor Normally Open Exit Push Button es Normally Open Sensor ooo es 1000 Ohms C 1000 Ohms a 1000 Ohms C 1000 Ohms 1000 Ohms Figure 4 Zone Sensor 1000 Ohms Resistors Remote Input Module User Manual Setting the DIP Switches on the SMT RIM SW1 Switch Settings Note The use of SW1 7 to provide the 200 10K termination option is available with firmware version 3 07 or later Table 7 RIM DIP Switch Settings Switch Number Description SW1 1 SW1 2 Module address Off Off Addr 4 On Off Addr 5 Off On Addr 6 On On Addr 7 SW1 4 Alarm Latching On Enables latching Associated LEDs for zones 1 16 will latch on alarm Zone 18 will reset cleared zone LEDs Off Disables latching SW1 3 SW1 5 SW1 6 Zone Termination Off Off Off 0 5K alarm 1K safe 2K alarm On Off Off 75 ohms alarm 150 safe 300 alarm Off On Off 1K safe 3K alarm 5 7K ground On On Off 1K safe 3K alarm Off Off On 6 8K safe 24K alarm On Off On 1 5K safe 3K alarm Off On On 10K safe 5K alarm On On On 5K safe 10K alarm swi 3 Sw1 5 swi 6 sw1 7 Off Off Off On 200 ohms safe 10K alarm Switch 8 is a spare SW2 Switch Settings for RS485 Termination The 2 position DIP switch SW2 located on the RIM is used to terminate the RS485 communication when required Table 8 SMT RIM Switch SW2 f2. 113 117 121 125 IN19 98 102 106 110 114 118 122 126 Offline 99 103 107 111 115 119 123 127 11 12 Remote Input Module User Manual Relay Numbers on RIM Table 13 RIM Relay Numbers for the Host PC Expansion port 2 Address Expansion port 1 Address Relay Number 4 5 6 7 4 5 6 7 K1 32 34 36 38 40 42 44 46 K2 33 35 37 39 41 43 45 47 RIM Field Wiring Test After making all connections and prior to connecting the ribbon cable to the RIM the following tests should be made Connections should already be completed at the ACU and external power supply if used Table 14 RIM Test Points and Voltages From To Voltage Tolerance GND 24V 24 VDC 3 5 VDC T T 4 0 VDC 0 5 VDC R R 2 5 VDC 0 5 VDC 24V Bldg Gnd 24 VDC 3 5 VDC GND Bldg Gnd 0 VDC 0 5 VDC T Bldg Gnd Less than 6 0 VDC N A T Bldg Gnd Less than 6 0 VDC N A R Bldg Gnd Less than 6 0 VDC N A R Bldg Gnd Less than 6 0 VDC N A After the first expansion module is connected these voltages will modulate due to data on the line Most Digital Volt Meters should indicate about 2 0 VDC Power Up Self Test on the RIM The Remote Input Module should always be tested after installation The indicators for the RIM are the red LEDs located on the component board See Figure 2 for the locations of these LEDs Note The test will complete in less tha
3. IS FURNISHED SUBJECT TO THE TERMS AND CONDITIONS OF THIS AGREEMENT RETENTION OF THE PROGRAM FOR MORE THAN 30 DAYS OPENING OF THE SEALED WRAPPER IF ANY SURROUNDING THE PROGRAM OR USE OF THE PROGRAM IN ANY MANNER WILL BE CONSIDERED ACCEPTANCE OF THE AGREEMENT TERMS IF THESE TERMS ARE NOT ACCEPTABLE RETURN THE UNUSED PROGRAM AND ANY ACCOMPANYING DOCUMENTATION TO GE FOR A FULL REFUND OF THE LICENSE FEE PAID FOR INFORMATION REGARDING THE RETURN OF PROGRAMS ENCODED OR INCORPORATED WITHIN EQUIPMENT CONTACT THE NEAREST UTC FIRE amp SECURITY SALES OFFICE Use this product only for the purpose for which it was designed refer to the data sheet and user documentation For the latest product information contact your UTC Fire amp Security sales represen tative or visit us online at www UTCFireandSecurity com 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 radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications You are cautioned that any changes or modifications not expressly approved by the party respon sible for compliance could void the user s authority to operate the eq
4. Remote Input Module LL UTC Fire amp Security A United Technologies Company Copyright Disclaimer Trademarks and patents Software license agreement Intended use FCC compliance Copyright 2010 UTC Fire amp Security All rights reserved This document may not be copied in whole or in part or otherwise reproduced except as specifically permitted under US copyright law without the prior written consent from UTC Fire amp Security Document number revision 1054312D The information in this document is subject to change without notice UTC Fire amp Security accepts no responsibility for inaccuracies or omissions and specifically disclaims any liabilities losses or risks personal or otherwise incurred as a consequence directly or indirectly of the use or applica tion of any of the contents of this document This publication may contain examples of screen captures and reports used in daily operations Examples may include fictitious names of individuals and companies Any similarity to names and addresses of actual businesses or persons is entirely coincidental Trade names used in this document may be trademarks or registered trademarks of the manufac turers or vendors of the respective products UTC Fire amp Security software supplied with UTC Fire amp Security products is proprietary and furnished under license and can be used or copied only in accordance with the license terms THE ENCLOSED PROGRAM
5. TB6 and TB10 on RIM Pin Term TB No Strip Description 6 1 IN13 Zone Input 13 6 2 IN13 Zone Input 13 6 3 IN14 Zone Input 14 6 4 IN14 Zone Input 14 5 1 IN15 Zone Input 15 5 2 IN15 Zone Input 15 5 3 IN16 Zone Input 16 5 4 IN16 Zone Input 16 10 1 IN17 Unsupervised Zone Input 17 10 2 GND Ground 10 3 IN18 Unsupervised Zone Input 18 10 4 GND Ground 10 5 IN19 Unsupervised Zone Input 19 10 6 GND Ground Input State Standard Resistance Ranges for Troubleshooting When correctly wired the input terminals should test with the default resistance listed in the table below The end of line EOL resistor for the SECURE state is 1 000 Ohms as selected using the DIP switch settings The End Of Line resistors must be located within the alarm zone sensor enclosure or the alarm zone circuit will be considered unsupervised When 1000 Ohms terminators are used the sensors can be wired for either normally closed contacts or normally open contacts In either case the SECURE or inactive state should test at 1 000 ohms A pair of 1 K ohm resistors at the sensor end of each alarm circuit ensures that the line resistance is typically 1 K ohm when the alarm is in the secure state Table 6 Input Zone Status By Resistance Zone Input Sensor Circuit in Ohms Sensor Circuit in Ohms State Normally Closed Normally Open Secure 1000 1000 Active 2000 500 Open gt 50 000 gt 50 000
6. ections Table 1 Wiring the Output Connections on the SMT Remote Input Module Description 9 1 K2 N O Aux Relay 2 Normally Open 9 2 K2 N C Aux Relay 2 Normally Closed 9 3 K2 C Aux Relay 2 Common 9 4 K1 N O Aux Relay 1 Normally Open 9 5 K1 N C Aux Relay 1 Normally Closed 9 6 K1 C Aux Relay 1 Common Table 2 Wiring the Communication Connections on the SMT Remote Input Module Description 11 1 24V 24 Volts In 11 2 GND OV 11 3 R To ACU Expansion Port TX 11 4 R To ACU Expansion Port TX 11 5 T To ACU Expansion Port RX 11 6 T To ACU Expansion Port RX Table 3 RIM Wiring Connections for TB1 TB3 Description 1 1 IN1 Zone Input 1 1 2 IN1 Zone Input 1 1 3 IN2 Zone Input 2 1 4 IN2 Zone Input 2 2 1 IN3 Zone Input 3 2 2 IN3 Zone Input 3 2 3 IN4 Zone Input 4 2 4 IN4 Zone Input 4 3 1 IN5 Zone Input 5 3 2 IN5 Zone Input 5 3 3 ING Zone Input 6 3 4 ING Zone Input 6 Table 4 Connections for TB4 TB7 and TB8 on RIM Description 7 1 IN12 Zone Input 12 7 2 IN12 Zone Input 12 7 3 IN11 Zone Input 11 7 4 IN11 Zone Input 11 8 1 IN10 Zone Input 10 8 2 IN10 Zone Input 10 8 3 IN9 Zone Input 9 8 4 IN9 Zone Input 9 4 1 IN8 Zone Input 8 4 2 IN8 Zone Input 8 4 3 IN7 Zone Input 7 4 4 IN7 Zone Input 7 6 Remote Input Module User Manual Table 5 Connections for TB5
7. n 10 seconds after power up Table 15 Power up LED Indicators on the RIM LED Description A ON at power up ON RAM test successful C ON PROM tested and initialized ON ON when Power is applied LEDs 1 16 All Green then All Yellow then All Red 13 14 Remote Input Module User Manual Contacting technical support For assistance with this product refer to this document and any other documentation provided If you still have questions you may contact technical support during normal business hours Monday through Friday excluding holidays between 8 a m and 7 p m Eastern Time Web site www utcfireandsecurity com Phone 1 888 437 3287 Fax 561 998 6224 Email rs bctsupport fs utc com Note Be ready at the equipment before calling for technical support
8. on Wiring for RRM and RIM as last device Here RRM or RIM 24 OV T R R Terminate Here SMT RIM Board Layout See Table 11 LEDS T O UTC FIRE amp SECURITY 2 REMOTE INPUT MODULE SW3 m A B C Tx Rx ON 1f g 30 See Table 7 4 O See Table 9 50 Swi ON 6O i A sW4 10 g 80 90 U3 100 See Table 8 swe 110 1 JON 122 J2 See Table 11 gt E ps 7 130 Bal o K1 K2 140 w1 we o SOY 160 12V OV 24V See Table 10 Figure 2 SMT RIM Component Location Termination Board Ribbon Connector Termination Board Ribbon Connector See Table g See Table 4 P NO N13 5a Z N12 N1 S aNc K2 IN13 o IN12 INT B CcC N14 o IN11 IN2 11 OINO IN14 do N1 N2 lo Nc Kt IN15 la N10 N3 o c IN15 7 IN10 IN3 oly See Table 3 24V IN16 i IN9 IN4 GND IN16 3 INQ IN4 amp BR IN17 Qi INS IN5 2 R GND IN8 INS y T N18 _ IN7 N6 o See fable 2 IT GND 2 IN7 ING a IN19 UTC FIRE amp SECURITY See Table 5 GND D ur 16 Input Termination Figure 3 PIN Locations on the Terminal Board of the SMT RIM Remote Input Module User Manual Terminal Block Output Conn
9. or RS485 Termination Switch SW2 Description SW2 1 ON Termination of Receive Pair SW2 2 ON Termination of Transmit Pair SW3 and SW4 Switch Settings for Input Zone Termination The 8 position DIP switch SW3 and SW4 located on the RIM are used to terminate the unused RIM Inputs The switch in ON position will terminate the zone with 1K resister Table 9 SMT RIM Switch SW3 and SWA for Input Termination Switch Description SW3 1 Zone 0 Termination SW3 2 Zone 1 Termination SW3 3 Zone 2 Termination SW3 4 Zone 3 Termination SW3 5 Zone 4 Termination SW3 6 Zone 5 Termination SW3 7 Zone 6 Termination SW3 8 Zone 7 Termination Switch Description SW4 1 Zone 8 Termination SW4 2 Zone 9 Termination SW4 3 Zone 10 Termination SW4 4 Zone 11 Termination SW4 5 Zone 12 Termination SW4 6 Zone 13 Termination SW4 7 Zone 14 Termination SW4 8 Zone 15 Termination 10 Remote Input Module User Manual Setting the Jumpers on the SMT RIM Jumper W1 and W2 Settings Jumpers W1 and W2 located on the RIM are used to select if 24 VDC will be supplied by relays K1 and K2 on the RIM Table 10 SMT RIM Jumpers W1 and W2 Jumper Description w1 Jump pins 2 amp 3 Relay K1 Dry w1 Jump pins 1 amp 2 Relay K1 energized with 24 V W2 Jump pins 2 amp 3 Relay K2 Dry W2 Jump pins 1 amp 2 Relay K2 energized with 24 V Normal LED status on
10. power supply must be used When using an auxiliary power supply make sure the 0V terminal on all remote modules and the ACU share a common ground The Remote Input Module requires 24 VDC 15 A YANN Do not use the relays on the ACU Controller Remote Reader Electronics RRE Remote Input Module RIM or Remote Relay Module RRM to switch any voltage above 30 volts Failure to heed this WARNING can cause death personal injury or damage to unit s RS 485 Information RS 485 is a differential voltage communication circuit The Impedance is 120 ohms End of line terminators are required on both ends of the communications path See Figure 1 Multi drop configurations are allowed with a maximum length of 4 000 feet 1 219 meters Stubs can be dropped off the RS 485 cable but the length of any stub cannot be longer than 10 feet 3 meters Stubs can connect to ACU Controllers or remote modules One Stage reader RRE RIM or RRM Stubs must not be terminated We strongly recommend that star configurations be avoided All remote modules have built in terminators that are switch selectable 2 Remote Input Module User Manual RS 485 Wiring RRE ACUX RRE RRE or Readers or or Reader Port Reader Reader 24 24 24 24 OV OV OV OV T T T T T T T T R J R R R R R g R 7 R Terminate Figure 1 RS 485 Communicati
11. the SMT RIM The LEDs on the Remote Input Module will light as follows Table 11 SMT RIM Normal LED Status E p Description A On when board is Communicating to ACU B Heart 1 Hz Flash CPU is functioning correctly C Flashing when offline Tx Flashing when transmitting data to ACU Rx Flashing when receiving data from ACU ON ON when Power is applied to board D57 ON when relay 2 is energized D52 ON when relay 1 is energized Status of 16 Alarm points Green Secure LEDs 1 16 Red Active Yellow Trouble Alarm Numbers on RIM RIM Alarm Numbers for the Host PC Table 12 RIM Alarm Numbers for the Host PC Expansion Port 1 Address Expansion port 2 Address Zone Input 4 5 6 7 4 5 6 7 IN1 128 144 160 176 192 208 224 240 IN2 129 145 161 177 193 209 225 241 IN3 130 146 162 178 194 210 226 242 IN4 131 147 163 179 195 211 227 243 IN5 132 148 164 180 196 212 228 244 ING 133 149 165 181 197 213 229 245 IN7 134 150 166 182 198 214 230 246 IN8 135 151 167 183 199 215 231 247 IN9 136 152 168 184 200 216 232 248 IN10 137 153 169 185 201 217 233 249 IN11 138 154 170 186 202 218 234 250 IN12 139 155 171 187 203 219 235 251 IN13 140 156 172 188 204 220 236 252 IN14 141 157 173 189 205 221 237 253 IN15 142 158 174 190 206 222 238 254 IN16 143 159 175 191 207 223 239 255 IN17 96 100 104 108 112 116 120 124 IN18 97 101 105 109
12. uipment Remote Input Module The Remote Input Module RIM provides the interface between the ACU Controller and additional alarm sensors The RIM consists of the electronic circuit board and the screw terminal connector board connected together by a ribbon cable The RIM can be installed in its own tampered enclosure Note The RIM with backplate only is Product Number RIM16 E00 The RIM with key locked enclosure is Product Number RIM16 E1L e When attaching a RIM to a Summit system please refer to the ACU3 Family Installation and Operation Guide for the list of input and output assignments e Surface Mount SMT refers to a method of construction that allows the various module components to be mounted directly on the surface of the board rather than using the traditional thru hole method e Each RIM provides 16 supervised inputs 3 unsupervised inputs and 2 relay outputs wet or dry contact relays Single Pole Double Throw e The Remote Input Module connects to the expansion port on the ACU in the upper addresses 4 7 only Each expansion port can support four readers in addition to remote modules RIM RRM e Each of the 16 alarm inputs is supervised as 6 states Alarm Secure Open Shorted Ground and Circuit Fault Auxiliary Power Supply for RIM In many cases the ACU can supply the power for the RIM The exception is when using an ACURS with a plug in transformer for its power supply When the ACU can not supply power an auxiliary
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