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SPYDER MODEL 5 ROOM CONTROLLERS 

 INSTALLATION GUIDE

 

31-00281ES-01 (EN1B-0664GE51 R0819) 

Table 2. WEB-RS5N Room Controllers: Overview of terminals and functions (by model) 

term. 

printing 

function 

WEB-

RS5N 

1, 2 

-- 

-- 

-- 

3, 4 

24V~, 24V0 

Removable 24 VAC power supply input and aux. output voltage (24 VAC) for all triacs 

3, 4 

24V~, 24V0 

Aux. output voltage (24 VAC) for all triacs 

TN 

Aux. term. for triac neutral wiring (internally connected with terminal 8) 

T~ 

Triac input voltage (24 VAC for all triacs; triac-switched 

T01 

Triac-switched output 

TN 

Aux. term. for triac neutral wiring (internally connected with terminal 5) 

T02 

Triac-switched output 

10, 11  RO4, IN4 

Output of Relay 4, Input for Relay 4 

type 2 

12, 13  RN, RN 

Aux. terminals for relay neutral wiring 

14, 15  IN1, RO1 

Input for Relay 1, Output of Relay 1 

type 1 

16, 17  IN2, RO2 

Input for Relay 2, Output of Relay 2 

type 1 

18, 19  IN3, RO3 

Input for Relay 3, Output of Relay 3 

type 1 

20, 21  WM1, WM2 

Removable interface for Sylk Bus 

22, 23, 

24, 25 

24V~, C2+, 

C2-, 24V0 

Aux. power (24 VAC 

20%, 50/60 Hz), RS485 Modbus interface and corresponding GND 

26 

AO1 

Analog Output 1 

type 2 

27 

24V~ 

24 VAC power for field devices 

28 

GND 

Ground for AOs 

29 

AO2 

Analog Output 2 

type 1 

30 

AO3 

Analog Output 3 

type 1 

31 

24V~ 

24 VAC power for field devices 

32 

GND 

Ground for AOs 

33 

AO4 

Analog Output 4 

type 1 

34 

UI1 

Universal Input 1 

type 1 

35 

GND 

Ground for UIs 

36 

UI2 

Universal Input 2 

type 1 

37 

UI3 

Universal Input 3 

type 1 

38 

GND 

Ground for UIs 

39 

UI4 

Universal Input 4 

type 1 

40, 41, 

42 

C1+, C1-, GND 

Removable BACnet MS/TP interface and corresponding GND 

Relay output types: See Table 3. Universal input types: Table 4. Analog output types: See Table 5. 
-- : Terminal not used. 
X : Terminal used. 
Type x: Type of an I/O as per its characteristic. Mode details given on each type in following tables. 

 

Table 3. Relay output types and characteristics 

 

type 1 

(standard) 

type 2 

(high in-rush current) 

corresponding ROs of WEB-RS5N 

RO1, RO2, RO3 

RO4 

corresponding ROs of WEB-RL6N 

RO2, RO3 

RO1, RO4 

contact 

N.O. 

N.O. 

min. load 

5 VAC, 100 mA 

24 VAC, 40 mA 

switching voltage range 

15 to 253 VAC 

15 to 253 VAC 

max. continuous load at 250 VAC (cos 

φ

 = 1) 

4 A 

10 A 

max. continuous load at 250 VAC (cos 

φ

 = 0.6) 

4 A 

10 A 

in-rush current (20 ms) 

-- 

80 A 

usage 

fan motor 

fan motor 

NOTE:

  The max. sum load of all relay currents at the same time is 14 A. 

 

Summary of Contents for Spyder 5 WEB-RL6N

Page 1: ...ure offering adequate space to maintain the segregation of line voltage field wiring and Class 2 field wiring CAUTION To avoid electrical shock or equipment damage you must switch OFF the power supply before attaching removing connections to from any terminals Table 1 Overview of models OS no power supply AOs UIs BIs relays A triacs B total no of I Os remarks large housing 7 13 16 x 4 5 16 x 2 5 1...

Page 2: ...2 18 IN3 19 RO3 WM1 20 C2 23 C2 24 WM2 21 34 UI1 36 UI2 37 UI3 39 UI4 35 GND 38 GND 26 AO1 27 24V 28 GND 29 AO2 30 AO3 31 24V 32 GND 33 AO4 41 C1 40 C1 GND 42 BACnet MS TP SERVICE 22 24V 25 GND 2 1 8 53 5 2 5 16 59 2 52 24 VAC MODELS 3 8 10 3 8 10 REMOVABLE TERMINALS Fig 3 WEB RS5N dimensions in inch mm The unit is suitable for mounting on a standard rail on walls as well as in wiring cabinets or ...

Page 3: ...t loose TERMINAL ASSIGNMENT General For a complete list of all terminals and a description of their functions see Table 2 and Table 6 on pg 4 and pg 6 NOTE All terminal blocks capable of carrying either low voltage or line voltage are orange colored Depending upon the given hardware model the delivery includes a plastic bag containing additional removable terminal blocks Every controller features ...

Page 4: ...rresponding GND X 26 AO1 Analog Output 1 type 2 27 24V 24 VAC power for field devices X 28 GND Ground for AOs X 29 AO2 Analog Output 2 type 1 30 AO3 Analog Output 3 type 1 31 24V 24 VAC power for field devices X 32 GND Ground for AOs X 33 AO4 Analog Output 4 type 1 34 UI1 Universal Input 1 type 1 35 GND Ground for UIs X 36 UI2 Universal Input 2 type 1 37 UI3 Universal Input 3 type 1 38 GND Ground ...

Page 5: ...haracteristics max 30 Hz pulse ON min 16 ms pulse OFF min 16 ms closed voltage 1 V open voltage 5 V pull up voltage 10 V X X fast binary counter input with below characteristics max 30 Hz pulse ON min 16 ms pulse OFF min 16 ms closed voltage 1 V open voltage 5 V pull up voltage 24 V X 0 2 to 10 V X X NTC20kΩ X SetPoint and FanSpdSW X NTC10kΩ Type II X PT1000 Ni1000TK5000 X Table 5 Analog output ty...

Page 6: ...24V RS485 Modbus interface corr GND aux power 24 VAC 20 50 60 Hz X 30 31 WM1 WM2 Removable interface for Sylk Bus X 32 AO1 Analog Output 1 type 3 33 GND Ground for AOs X 34 AO2 Analog Output 2 type 3 35 24V 24 VAC power for field devices X 36 AO3 Analog Output 3 type 1 37 GND Ground for AOs X 38 AO4 Analog Output 4 type 1 39 24V 24 VAC power for field devices X 40 AO5 Analog Output 5 type 1 41 GND...

Page 7: ...2 3 5 6 4 24V 0 10V ELECTR REHEATER 3 SPEED FAN 10 RO4 11 IN4 14 IN1 15 RO1 16 IN2 17 RO2 18 IN3 19 RO3 3 24V 4 24V0 N L 24V 24V0 N L 6 T 7 T01 8 TN 9 T02 12 RN 13 RN 3 COM TR40x TR42x WALL MODULE 70 F LINE VOLTAGE LINE VOLTAGE F1 PROPORTIONAL DAMPER ACTUATOR GND T WALL MODULE 7xxxx Niagara workbench BACnet MS TP Fig 9 WEB RS5N 24 VAC models and example wiring with actuator powered by extra transf...

Page 8: ...SPYDER MODEL 5 ROOM CONTROLLERS INSTALLATION GUIDE 31 00281ES 01 EN1B 0664GE51 R0819 8 TR40x TR42x WALL MODULE WEB 8000 CIPer Model 50 F 70 Fig 10 WEB RL6N 24 VAC models and example wiring ...

Page 9: ...VAC models connected to single power supply Communication Signal Terminals All other communication signal terminals except for the Sylk Bus see Table 10 on pg 15 support 1 x 2 5 mm2 or 2 x 1 5 mm2 wiring Two wires with a total thickness of 2 5 mm2 14 AWG can be twisted together and connected using a wire nut include a pigtail with this wire group and attach the pigtail to the individual terminal b...

Page 10: ...lly e g using their two dip switches Thus when a new WEB RxxN is added to the channel when its automatic MAC addressing function is triggered it will assign itself an available i e unoccupied MAC address During the automatic MAC addressing process LED behavior 7 see Table 7 is displayed OPERATOR INTERFACES LEDs The controller features the following LEDs T2 R2 T1 R1 Fig 113 Controller LEDs Table 7 ...

Page 11: ...n doing so the following considerations should be taken into account Max BACnet MS TP bus length L in Fig 17 See Table 9 Twisted pair cable e g AWG 18 J Y St Y 2 x 2 x 0 8 CAT 5 6 7 cable use only one single pair for one bus Belden 9842 or 9842NH and daisy chain topology Must conform to EIA RS485 cabling guidelines and ANSI ASHRAE Standard 135 2010 Max no of BACnet MS TP devices per BACnet MS TP c...

Page 12: ...than once every two minutes these components must be prevented from causing harmful interference to radio or television reception conformance with EN 45014 Relay Current Limitations If the triacs are supplied with current from an external source then a maximum of two relays may be loaded with a max of 4 A per relay even if two triacs are each simultaneously loaded with max 300 mA If the triacs are...

Page 13: ...low NOTE The intended use of the wall module s buttons must be programmed using the Niagara tool See also corresponding Technical Literature listed in Table 11 on pg 18 Programming of Wall Module LED LCD The LED of a CLCMxT Wall Module can be programmed to provide information about e g overrides or effective occupancy modes The LCD of the TR42x can likewise be programmed to display such informatio...

Page 14: ...dby mode OCCUPIED If the wall module s LED is ON then the controller is in the occupied mode BYPASS If the wall module s LED is ON continuously then the controller has received a network command and been placed in the bypass mode HOLIDAY If the wall module s LED is OFF then the controller has received a network command and been placed in the holiday mode LCD of TR42x Programmed to Display Info on ...

Page 15: ...o bypass mode If on the other hand the user cancels the controller will revert to the unoccupied mode If is displayed the controller is in the occupied mode Standby Mode Fig 157 Example standby screens If is displayed the controller is in the standby mode The user can override the standby mode by touching the upper right softkey An intermediate screen will then flash for a few seconds allowing the...

Page 16: ...ching both upper softkeys simultaneously see Fig 3 The temperature screen appears first The user can scroll to further screens heating cooling relative humidity and CO2 concentration using the left or right arrow softkey NOTE The user can at any time exit the expanded menu using the upper left softkey below the symbol or the word HOME or by simply waiting approx 60 seconds In the expanded menu the...

Page 17: ...ions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment OFF and ON the user is encouraged to try to correct the interference by one or more of the following measures Reorie...

Page 18: ...0819 18 RELATED TECHNICAL LITERATURE Table 11 Related Technical Literature Title Product Literature no Spyder Model 5 Mounting Instructions 31 00276ES Spyder Model 5 Product Data 31 00280ES Spyder Model 5 Engineering Tool User Guide 31 00282ES TR40x TR42x Specification Data 63 1389 ...

Page 19: ...s The thresholds at which sensor failures i e sensor breaks SB and short circuits SC are recognized depends upon the given sensor type In the event of a recognized sensor failure the sensor input is set to invalid The user may program safety functions based upon invalid sensor data Table 13 lists the measurement ranges and the corresponding thresholds for the recognition of sensor failure for the ...

Page 20: ...2 524 84 2 29 8 408 2 447 86 30 8 057 2 372 87 8 31 7 722 2 299 89 6 32 7 402 2 228 91 4 33 7 098 2 159 93 2 34 6 808 2 091 95 35 6 531 2 025 96 8 36 6 267 1 962 98 6 37 6 015 1 900 100 4 38 5 775 1 840 102 2 39 5 546 1 781 104 40 5 327 1 724 105 8 41 5 117 1 669 107 6 42 4 917 1 616 109 4 43 4 726 1 564 111 2 44 4 543 1 514 113 45 4 369 1 465 114 8 46 4 202 1 418 116 6 47 4 042 1 373 118 4 48 3 8...

Page 21: ...122 50 6 72 2 07 123 8 51 6 45 2 01 125 6 52 6 19 1 94 127 4 53 5 95 1 88 129 2 54 5 72 1 82 131 55 5 49 1 77 Temp F C Resistance kΩ Terminal voltage V 132 8 56 5 28 1 71 134 6 57 5 08 1 66 136 4 58 4 88 1 61 138 2 59 4 69 1 56 140 60 4 52 1 51 141 8 61 4 35 1 46 143 6 62 4 18 1 41 145 4 63 4 03 1 37 147 2 64 3 88 1 32 149 65 3 73 1 28 150 8 66 3 59 1 24 152 6 67 3 46 1 20 154 4 68 3 34 1 16 156 2...

Page 22: ...156 2 69 1267 0 484 Temp F C Resistance Ω Terminal voltage V 158 70 1271 0 486 159 8 71 1275 0 487 161 6 72 1278 0 488 163 4 73 1282 0 490 165 2 74 1286 0 491 167 75 1290 0 493 168 8 76 1294 0 494 170 6 77 1297 0 495 172 4 78 1301 0 497 174 2 79 1305 0 498 176 80 1309 0 499 177 8 81 1313 0 501 179 6 82 1317 0 502 181 4 83 1320 0 503 183 2 84 1324 0 505 185 85 1328 0 506 186 8 86 1332 0 508 188 6 8...

Page 23: ... 2077 0 770 552 2 289 2081 0 771 554 290 2085 0 773 555 8 291 2088 0 774 557 6 292 2092 0 775 559 4 293 2095 0 776 561 2 294 2099 0 777 563 295 2102 0 778 564 8 296 2106 0 780 566 6 297 2110 0 781 568 4 298 2113 0 782 570 2 299 2117 0 784 572 300 2120 0 785 573 8 301 2124 0 786 575 6 302 2127 0 787 577 4 303 2131 0 788 579 2 304 2134 0 789 581 305 2138 0 791 582 8 306 2142 0 792 584 6 307 2145 0 7...

Page 24: ... 116 6 47 1220 1 0 467 118 4 48 1225 0 469 120 2 49 1230 0 471 122 50 1235 0 473 123 8 51 1240 0 474 125 6 52 1245 0 476 127 4 53 1250 0 478 129 2 54 1255 0 480 131 55 1260 1 0 482 132 8 56 1265 1 0 484 134 6 57 1270 2 0 485 136 4 58 1275 3 0 487 138 2 59 1280 3 0 489 140 60 1285 4 0 491 141 8 61 1290 6 0 493 143 6 62 1295 7 0 495 145 4 63 1300 8 0 496 147 2 64 1306 0 498 149 65 1311 1 0 500 Temp ...

Page 25: ... Z A La Pièce 16 1180 Rolle Switzerland by its Authorized Representative Honeywell Building Technologies Honeywell International Inc 1985 Douglas Drive North Golden Valley MN 55422 customer honeywell com 2019 Honeywell International Inc 31 00281ES 01 EN1B 0664GE51 R0819 Rev 01 08 19 Trademark Information BACnetTM is a trademark of ASHRAE Inc ...

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