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System 9100 Technical Manual

636.4

Configuration Guides Section

Configuration Guide

Issue Date

0896

©

1996 Johnson Controls, Inc.

1

Code No. LIT-6364050

XT-9100 Extension Module/XP-910x Expansion Modules

Page

3

Introduction

3

Hardware Configuration

4

Model Codes

4

Software Configuration

7

XT-9100 Type Settings

7

XT-9100 Configuration

9

Analog Input

10

Digital Input Configuration

15

Analog Output Configuration

16

Digital Output Configuration

19

Download/Upload

21

Appendix 1:  SX Tool Item Description and Tables

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General

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Item Address

23

Item Type

23

Item Tag

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Read/Write Data (R/W)

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Floating Point Numbers

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Item List

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XT-9100 Configuration Guide

Summary of Contents for TR-9100-8001

Page 1: ...are Configuration 4 Model Codes 4 Software Configuration 7 XT 9100 Type Settings 7 XT 9100 Configuration 9 Analog Input 10 Digital Input Configuration 15 Analog Output Configuration 16 Digital Output Configuration 19 Download Upload 21 Appendix 1 SX Tool Item Description and Tables 23 General 23 Item Address 23 Item Type 23 Item Tag 24 Read Write Data R W 24 Floating Point Numbers 25 Item List 25 ...

Page 2: ...2 Configuration Guides XT 9100 Configuration Guide ...

Page 3: ...dules either eight analog points or eight digital points extending the input output of a DX 9100 by up to 64 remote input outputs Modules with 16 input outputs may also be connected provided that the total number of remote input output points on the DX 9100 does not exceed 64 Configuration of the XT 9100 is achieved by using a personal computer with GX 9100 Graphic Configuration Software GX Tool s...

Page 4: ...a 24 VAC power source All models are suitable for 50 Hz or 60 Hz through software configuration For the analog inputs and outputs the input and output type are set by jumpers on the analog expansion module board These settings must comply with the software configuration settings Note When an extension module is configured with 16 inputs outputs the DX 9100 considers the single physical module as t...

Page 5: ...1 See Notes 2 and 4 XP2 Digital XP 9103 XP 9104 XP 9105 1 or 2 x XP 9106 optional optional optional optional See Notes 2 3 and 4 Notes 1 The analog XP 9102 must be placed in position XP1 2 Two XP 9106 modules are considered as one XP module when installed next to each other in Position XP1 or XP2 When a single XP 9106 is installed in Position XP1 and another type of XP module is installed in Posit...

Page 6: ...6 Configuration Guides XT 9100 Configuration Guide ...

Page 7: ...log output characteristics 6 Define digital output characteristics Via the GX Tool Select DX 9100 and then Global Enter the frequency as 50 or 60 The XT frequency and the DX frequency are both defined here Via the SX Tool Set Bit X1 of Item XTS RI 69 X1 0 50 Hz power line X1 1 60 Hz power line Via the GX Tool First configure an XT Module Select XTn then Analog or Digital Then select the just confi...

Page 8: ...Failure This bit is set when a XT is powered up or when there is a serial interface communication failure The setting in Item XTS RI 69 Bit X2 Output Hold Reset on Communication Failure flag is repeated in Item OPMO RI 01 Bit X7 so that it can be read by the DX 9100 or any other monitoring system Via the GX Tool In order to download the XT 9100 devices it is necessary to enter the XT addresses The...

Page 9: ...Module Items IOMAP RI 77 IOTYP RI 78 and IOMOD RI 79 1 The I O map IOMAP defines which inputs outputs in pairs on the extension module are used Each extension module can be defined with eight used points which normally reside in the XP1 first Expansion Module points I O1 I O8 defined in bits X1 X4 When an extension module has an XP2 second Expansion Module with a further eight points these points ...

Page 10: ...the input is active or passive the remaining options depend on this choice With the SX Tool this information is entered into a number of Items Via the GX Tool Select XTn AIn then either Active or Passive Note All AI points must be configured even if not connected to a sensor to enable the generation of a complete IO Map and to ensure correct operation with the DX 9100 Controller Via the GX Tool Th...

Page 11: ... each AI can only be done in the SX Tool This function allows the linearization of the differential pressure signal from a 0 10 VDC or 0 4 20 mA active sensor the function is effective over the selected range AI sqrt PR 100 HR LR LR Where PR the Analog Value in of the physical input range HR High Range Value and LR Low Range Value Via the GX Tool Option Only Available with Active Sensor Select XTn...

Page 12: ... inputs select XTn AIn then Data At the Type of Active Input field enter 0 0 10 VDC 1 4 20 mA 2 0 20 mA Each analog input module channel performs the conversion of the input signal to a numeric value using the high range and low range Select XTn AIn then Data High Range enter the equivalent number for reading at high input 10V 20 mA Low Range Enter the reading at low input 0V 0 mA 4 mA For passive...

Page 13: ...nversion of the input signal to a numeric value using the high range at Item HRn RI 89 RI 97 RI 105 RI 113 RI 121 RI 129 RI 137 and RI 145 and low range at Item LRn RI 90 RI 98 RI 106 RI 114 RI 122 RI 130 RI 138 and RI 146 For RTD inputs the range of the displayed value is fixed according to the type of sensor The high limit and the low limit define at which levels the analog input reading will ge...

Page 14: ...ue at current time A value of 0 disables the filter Via the GX Tool Select XTn AIn and Data At the Filter Constant sec field enter a number within the recommended range 0 to 10 Via the SX Tool The Filter Time Constant is entered at Item FTCn RI 94 RI 102 RI 110 RI 118 RI 126 RI 134 RI 142 and RI 150 1 When the XT 9100 is connected to a DX 9100 Controller you can view the AI value and alarm limits ...

Page 15: ...ned as maintained or pulse type With maintained type contacts the extension module status follows the status of the contact With pulse type contacts the extension module sets and resets the status at each pulse of the input contact Via the GX Tool Select XTn or EXP DIn then Data At the Digital Input Type field enter 0 for maintained contact or 1 for pulse contact Via the SX Tool The input type for...

Page 16: ...X 9100 Controller the total counts can be read on the DX 9100 front panel Via the SX Tool Enter the prescaler at Item PCn RI 48 55 within the range 1 255 1 When the XT 9100 is connected to a DX 9100 Controller you can view the DI status and counter values from the DX 9100 front panel See the Display Panel and Keypads section in the DX 9100 Extended Digital Controller Technical Bulletin LIT 6364020...

Page 17: ...og output is defined in the DX 9100 Controller The High Range defines the level of control source signal that corresponds to an output of 100 The Low Range defines the level of control source signal that corresponds to an output of 0 When the source point is equal to the high range then the output will be at the maximum signal 10V 20 mA When the source point is equal to low range then the output w...

Page 18: ...l Refer to the Extension Module Configuration section of the DX 9100 Configuration Guide LIT 6364030 1 When the XT 9100 is connected to a DX 9100 Controller you can view and override the AO value from the DX 9100 front panel See Display Panel and Keypads in the DX 9100 Extended Digital Controller Technical Bulletin LIT 6364020 2 The analog output values can be read in percent at Item AOn RI 20 27 ...

Page 19: ... XP2 as follows X1 0 On Off Type Maintained X1 1 Pulse Type the output switches for a configurable pulse time for each state transition of the command output This parameter is set once for all pulse type outputs in the XT 9100 Via the GX Tool Select XTn XTn and Data then enter a value in the Digital Output Pulse Time field The valid range is 1 to 250 5 msec to 1 25 seconds pulse time Via the SX To...

Page 20: ...front panel See Display Panel and Keypads in the DX 9100 Extended Digital Controller Technical Bulletin LIT 6364020 2 The digital output status can be seen at Item DOS1 DI 07 for XP1 and Item DOS2 DI 08 for XP2 bits X1 X8 for outputs DO 1 8 with the SX Tool 3 A configured DO is shown by a thick bar to the left and right of its selection box Configure all DOs as ON OFF or PULSE whether they are use...

Page 21: ...nloading Apply 24 VAC power to the DX 9100 and XT XP devices On the GX Tool select DX 9100 DOWNLD and DX Enter the DX 9100 address 0 255 in the Controller Address field and the PC serial communication port 1 or 2 in the PC Port field Press Enter Checks are made before the data is downloaded to the controller and a message is displayed on the screen if a value is outside the normal range for that p...

Page 22: ... Set the address switches and jumpers on the XT XP devices as required Connect the XT XP devices to the N2 Bus and the N2 Bus to the converter on the PC See the XT 9100 Technical Bulletin LIT 6364040 for details If the XT XP devices are installed and wired verify all field wiring and sensor voltage current signals It is recommended that controlled devices be isolated during download and initial st...

Page 23: ...e power is switched off The Item List at the end of this manual gives a brief description of each Item available within the module The format of any XT 9100 Item is described by the following types Number Floating point number 2 bytes 1 Byte Unsigned 8 bit hexadecimal number used to transfer logic states or integer numbers 0 255 2 Bytes Unsigned 16 bit hexadecimal number used to transfer logic sta...

Page 24: ...ummarizes the description and the meaning of the data which is stored in the XT 9100 memory The Items are shown in the Item List with their respective names in the Tag column The Items shown in the Item List can be divided into three basic categories 1 Input values and status of the XT 9100 can be read but not changed by a Supervisory System These Items are shown in the Item List with an R in the ...

Page 25: ...es with single digit resolution A number is normalized when the most significant bit is true M10 1 The value of the n th mantissa bit n from 0 10 is 2 exp EXPONENT n A number is zero when all bits of the mantissa are 0 The value of a number is NUMBER SIGN MANTISSA 2 exp EXPONENT Examples 1 1400H or B001H 1 1C00H or B801H 100 7640H or B064H Symbols used in the Item List DI Decimal Item Address HI H...

Page 26: ...or X3 DI Error X4 AI Error X5 AO Error X6 Not Used X7 FAIL XT Fail Mode XTS bit X2 X8 1 PWR Power Fail or Comm Failure 02 02 1 Byte R I2CE Bus Error X8 X7 X6 X5 X4 X3 X2 X1 X1 1 XP1 DO Error X2 1 XP2 DO Error X3 1 XP1 DI Error X4 1 XP2 DI Error X5 1 Analog or Counter Error 1 4 X6 1 Analog or Counter Error 5 8 X7 1 FAIL EEPROM Error X8 1 PWR XP Hardware Fault 03 03 1 Byte Spare 04 04 1 Byte Spare 0...

Page 27: ... DOS2 Digital Output Status XP2 X8 X7 X6 X5 X4 X3 X2 X1 X1 1 XP2 Output 1 is On X2 1 XP2 Output 2 is On X3 1 XP2 Output 3 is On X4 1 XP2 Output 4 is On X5 1 XP2 Output 5 is On X6 1 XP2 Output 6 is On X7 1 XP2 Output 7 is On X8 1 XP2 Output 8 is On 09 09 1 Byte R DIS1 Digital Input Status XP1 X8 X7 X6 X5 X4 X3 X2 X1 X1 1 XP1 Digital Input 1 is On X2 1 XP1 Digital Input 2 is On X3 1 XP1 Digital Inpu...

Page 28: ... is On 11 0B 2 Byte R AIS Analog Input Status X16 X15 X14 X13 X12 X11 X10 X9 X8 X7 X6 X5 X4 X3 X2 X1 X1 1 AIH1 High Alarm Condition X2 1 AIL1 Low Alarm Condition X3 1 AIH2 High Alarm Condition X4 1 AIL2 Low Alarm Condition X5 1 AIH3 High Alarm Condition X6 1 AIL3 Low Alarm Condition X7 1 AIH4 High Alarm Condition X8 1 AIL4 Low Alarm Condition X9 1 AIH5 High Alarm Condition X10 1 AIL5 Low Alarm Con...

Page 29: ...4 Analog Output Value 4 24 18 Number R W AO5 Analog Output Value 5 25 19 Number R W AO6 Analog Output Value 6 26 1A Number R W AO7 Analog Output Value 7 27 1B Number R W AO8 Analog Output Value 8 28 1C Spare 29 1D Spare 30 1E Spare 31 1F Spare 32 20 4 Bytes R W CNT1 DI1 Pulse Count 33 21 4 Bytes R W CNT2 DI2 Pulse Count 34 22 4 Bytes R W CNT3 DI3 Pulse Count 35 23 4 Bytes R W CNT4 DI4 Pulse Count ...

Page 30: ...9 Internal use only 59 3B 1 Byte CNF DILD Internal use only 60 3C 1 Byte CNF DOL1 Internal use only 61 3D 1 Byte CNF DOL5 Internal use only 62 3E 1 Byte CNF DOL9 Internal use only 63 3F 1 Byte CNF DOLD Internal use only 64 40 1 Byte CNF DIT1 Digital Input Type XP1 X8 X7 X6 X5 X4 X3 X2 X1 X1 0 XP1 DI1 Maintained Contact X1 1 XP1 DI1 Pulse Contact X2 0 XP1 DI2 Maintained Contact X2 1 XP1 DI2 Pulse C...

Page 31: ...tact X6 0 XP2 DI6 Maintained Contact X6 1 XP2 DI6 Pulse Contact X7 0 XP2 DI7 Maintained Contact X7 1 XP2 DI7 Pulse Contact X8 0 XP2 DI8 Maintained Contact X8 1 XP2 DI8 Pulse Contact 66 42 1 Byte CNF DOT1 Digital Output Type XP1 X8 X7 X6 X5 X4 X3 X2 X1 X1 0 XP1 DO1 ON OFF Type X1 1 XP1 DO1 Pulse Type X2 0 XP1 DO2 ON OFF Type X2 1 XP1 DO2 Pulse Type X3 0 XP1 DO3 ON OFF Type X3 1 XP1 DO3 Pulse Type X...

Page 32: ...DO6 ON OFF Type X6 1 XP2 DO6 Pulse Type X7 0 XP2 DO7 ON OFF Type X7 1 XP2 DO7 Pulse Type X8 0 XP2 DO8 ON OFF Type X8 1 XP2 DO8 Pulse Type 68 44 1 Byte CNF DOPT Digital Output Pulse Time 5 ms default 200 69 45 1 Byte CNF XTS XT 9100 Type Settings 0 0 0 0 0 X3 X2 X1 X1 0 50 Hz Power Line X1 1 60 Hz Power Line X2 0 Output Reset on communication failure X2 1 Output Hold on communication failure X3 Int...

Page 33: ...P1 I O7 and I O8 Used X5 0 XP2 I O1 and I O2 Not Used X5 1 XP2 I O1 and I O2 Used X6 0 XP2 I O3 and I O4 Not Used X6 1 XP2 I O3 and I O4 Used X7 0 XP2 I O5 and I O6 Not Used X7 1 XP2 I O5 and I O6 Used X8 0 XP2 I O7 and I O8 Not Used X8 1 XP2 I O7 and I O8 Used 78 4E 1 Byte CNF IOTYP Extension Module I O Type 0 0 0 0 X4 X3 X2 X1 X1 0 XP1 I O1 and I O2 Digital X1 1 XP1 I O1 and I O2 Analog X2 0 XP1...

Page 34: ...I O6 Output X8 0 XP2 I O7 and I O8 Input X8 1 XP2 I O7 and I O8 Output 80 50 1 Byte CNF Spare 81 51 1 Byte CNF Spare 82 52 1 Byte CNF Spare 83 53 1 Byte CNF Spare 84 54 1 Byte CNF Spare 85 55 1 Byte CNF Spare 86 56 2 Byte CNF MTBC Maximum Time Between Communications default 60 sec 87 57 2 Byte CNF AOT Analog Output Type X16 X15 X14 X13 X12 X11 X10 X9 X8 X7 X6 X5 X4 X3 X2 X1 X2 X1 Signal Analog Out...

Page 35: ...PT1000 Sensor 89 59 Number CNF HR1 High Range Analog Input 1 90 5A Number CNF LR1 Low Range Analog Input 1 91 5B Number R W E HIA1 High Alarm Limit Analog Input 1 92 5C Number R W E LOA1 Low Alarm Limit Analog Input 93 5D Number R W E ADF1 Differential on Alarm Limit units 94 5E Number CNF FTC1 Filter Constant Analog Input 1 95 5F 2 Bytes Spare 96 60 2 Bytes CNF AIT2 Input Type of Analog Input 2 b...

Page 36: ...AIT1 113 71 Number CNF HR4 High Range Analog Input 4 114 72 Number CNF LR4 Low Range Analog Input 4 115 73 Number R W E HIA4 High Alarm Limit Analog Input 4 116 74 Number R W E LOA4 Low Alarm Limit Analog Input 4 117 75 Number R W E ADF4 Differential on Alarm Limit units 118 76 Number CNF FTC4 Filter Constant Analog Input 4 119 78 2 Bytes Spare 120 74 2 Bytes CNF AIT5 Input Type of Analog Input 5 ...

Page 37: ...AIT1 137 89 Number CNF HR7 High Range Analog Input 7 138 8A Number CNF LR7 Low Range Analog Input 7 139 8B Number R W E HIA7 High Alarm Limit Analog Input 7 140 8C Number R W E LOA7 Low Alarm Limit Analog Input 7 141 8D Number R W E ADF7 Differential on Alarm Limit units 142 8E Number CNF FTC7 Filter Constant Analog Input 7 143 8F 2 Bytes Spare 144 90 2 Bytes CNF AIT8 Input Type of Analog Input 8 ...

Page 38: ...38 Configuration Guides XT 9100 Configuration Guide Notes ...

Page 39: ...Configuration Guides XT 9100 Configuration Guide 39 Notes ...

Page 40: ...40 Configuration Guides XT 9100 Configuration Guide Notes Controls Group FAN 636 4 507 E Michigan Street System 9100 Technical Manual P O Box 423 Printed in U S A Milwaukee WI 53201 ...

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