TORQUE. Quick-ship program - torque

Transcription

1 Torque Honeywell Sensing and Control s torque sensors feature both reaction (non-rotating) and rotary torque sensors that utilize bonded strain gage technology. The rotary torque capability offers both in-line mounting configurations as well as clamp-on sensors. Varying signal transfer methods from the traditional slip ring and rotary transformer to both analog and digital telemetry methods complete a vast product set to fill most application requirements. Sensor capacity ranges cover from the low end 3 in-oz. (0.02 Nm) up to 1.5 M in-lb (169K Nm). Reaction torque sensors offer torque measurements from 10 in-oz (0.07 Nm) up to 1.5 M in-lb (169K Nm). A variety of mounting configurations are offered including: shaft-to-shaft, flange-to-flange, shaft-to-flange, spline drives, and square drives. Our elements have been carefully engineered and designed to increase the sensitivity levels giving our sensors the enhanced accuracy and reliability the industry requires and also the specifications and tolerances of today s standards. These products are designed for the precise measurements required for test and measurement in R&D, manufacturing, process control, and quality assurance. Many torque sensors can ship from our extensive quick-ship program, and others are available with customized options or as fully custom designs. Please see our Web site for updated listings ( honeywell.com/tmsensor-ship). subject to change. Questions? Contact us at either , 287

2 Quick-ship program - torque Our quick-ship program for test and measurement products includes thousands of finished transducers, load cells, accelerometers, displacement transducers, instrumentation and amplifiers in a wide variety of models and ranges. This diversity readily accommodates most applications, and provides immediate solutions to your urgent sensor needs. To learn more about Honeywell s quick-ship program for instruments and amplifiers, visit our Web site or contact our sales support team at ( ). Many torque sensors can ship from our extensive quick-ship program, and others are available with customized options or as fully custom designs. Many products are included in our quick-ship program. Please see for updated listings. Torque range (ft-lb) Torque range MODELS E / / TMS in-oz X X X 100 in-oz X 200 in-oz X X X 250 in-oz X X 1000 in-oz 50 in-lb X X X X X 10 X 100 in-lb X X X X X 200 in-lb X X X X 250 in-lb X 500 in-lb X X X X 100 X 1K in-lb X X X X 250 X 2K in-lb X X X X X X X 300 X 4K in-lb X X 5K in-lb X X X X X 10K in-lb X X X X 20K in-lb X X X X 50K in-lb X 100k in-lb X 288 Questions? Contact us at either , subject to change.

3 Potential application Model Page Wireless Torque Measurement system TMS9000 Contact factory 292 Low capacity Rotating shaft Flange drive Socket wrench E E Rotary torque Non-contact amplified output Enhanced accuracy Wheel Sprocket pulley Steering subject to change. Questions? Contact us at either , 289

4 Potential application Model Page Shaft QSFK BT Socket Low capacity Reaction torque Flange QFFH BT Hollow Thrust Miniature QWFK-8M QWLC-8M BT311 BT Questions? Contact us at either , subject to change.

5 Potential application Model Page Handheld TQ366 TQ651 TQ Clamp-on collar 9300 BT Wireless based Special applications 1601A 1603A 1605A 2100 Series WM1000, WM1100 WM1200, WM1300 WM1400 WN1100-WN Special applications 1202B 1205B WI1000 WI Power supplies and receivers 1402A 1442B A 2175A 1402A 1442B A A Accessories Transmitters Transmitters and collar assemblies 2120B/C 1418B 1730A 1731A 1735A 1736A B 1730A 1731A 1735A 1736A Power separation unit 1211D Antennas 1408A 1427A 1408A 1427A Rotating collars 2126A A 366 Systems 1400B 1700A 1701A 1705A 1706A 1400B 1700A 1701A 1705A 1706A subject to change. Questions? Contact us at either , 291

6 TMS 9000 Rotary Torque Measurement System Consult factory for ordering information. Consult factory for order information. The TMS 9000 torque measurement system represents an advanced generation of rotary transformer sensors designed to operate entirely in the digital domain for enhanced accuracy and versatility. The TMS 9000 series physically integrates rotor electronics and telemetry into one element, with all set-up and output controlled through computer software. This digital wireless telemetry system supplies power to the rotating sensor, supports two-way communications and provides wide testing capabilities. More than a stand-alone sensor, the specially designed TMS 9000 is a complete torque measurement system, with standard analog, frequency and digital outputs. Fully software driven, the durable TMS 9000 utilizes a custom 16-bit digital wireless telemetry system, which maximizes resolution and frequency response while also being able to provide excitation power across the wireless gap. System set-up can be changed on-the-fly without affecting calibration. Potential applications include transportation and automotive, manufacturing and production, aerospace and military, medical, design and engineering, testing and quality. Digital telemetry Standard or custom set up Single or multi-channel Greater control More versatile Ranges to ft-lb Performance Torque range Varies on application; consult factory (up to lb-ft) Nominal system accuracy ±0.05 % full scale Frequency output Analog 10K Hz ± 5K Hz; 60K Hz ±20K Hz Digital RS-232 Resolution 0.01 % to % full scale Measurement frequency range 0 khz to 3 khz Digital filter 0.1 khz to 1 khz Maximum sampling rate khz sensor, 8834 Hz analog output (voltage only) Temperature, operating -40 C to 85 C [-40 F to 185 F] Temperature, compensated -10 C to 50 C [14 F to 122 F] Temperature effect, zero ±0.003 % full scale/ F Temperature effect, span ±0.003 % full scale/ F Power supply (standard, non-isolated) 12 Vdc (nom) Analog output voltage ± 10 Vdc, 2K ohm min. Analog output current 4 ma to 20 ma Load impedance 500 ohm max. (for current loop) features Rotor electronics module. This is embedded in the sensor and receives and conditions the input signal before transmitting it to the SPM. Signal processing module (SPM). This device integrates two microprocessors to share data processing and communications. It recovers the signal from the rotor, provides scaling and filtering, and offers a variety of outputs, compatible with various data acquisition systems. 292 Questions? Contact us at either , subject to change.

7 Mechanical sensor features No hoop antenna System error ±0.05 % full scale typ., ±0.1 % full scale max. Enhanced torsional stiffness Enhanced overload capability Low rotating inertia Variety of mating flange designs Custom designs available Dynamics of the TMS 9000 The rotor electronics module is encapsulated to enhance protection against vibration, G Force and chemicals. The rotating antenna is comprised of an annular printed circuit board, peripherally or centrally mounted on the rotor. Four layer construction ensures enhanced strength with no exposed tracks in the outer region. IP65 caliper-style coupling module with die cast Aluminum casing. Provides power transmission and signal recovery with BNC connector for coaxial cable. Signal processing module (SPM) The SPM contains two separate microprocessors to share data processing and communications. Calibration is all digital, via RS-232 link, eliminating zero and span adjustments or dip switches. The durable unit has an external BNC connector for the RF coaxial cable, internal 2-part plug and socket connectors for output signals, digital communication and dc power. The SPM external housing also features a SHUNT CAL button and LEDs to indicate Power ON, Rotor Active and SHUNT CAL Mode. Because of these enhanced technologies, the end result is a true advancement in telemetry-based torque systems. Software features The toolkit software at the heart of the TMS 9000 system is designed to offer flexibility and adaptability. The software puts the operator fully in control and can be tailored to the test conditions required at the time. Standard or custom set ups can be saved to SPM Card parameter files and recalled at any time. Input scaling and output scaling is independent, providing a wider application advantage. Toolkit features Full software set-up No zero and span adjustments or dip switches Scalable output on the fly Up to nine-point linearization feature User-selectable digital filter feature Simple ASCII communications protocol Additional features Custom designs available Mechanical mating configurations TMS 9000 Series torque sensors perform well under tough conditions. For years, sensor operators in varied applications have acknowledged the enhanced accuracy, durability, and quality built into each sensor. TMS 9000 Series sensors can be tailored to specific applications for ever greater versatility with capacities up to lb-ft. Test communications Parameters/system setup DIN drive shaft yokes Series Systems quality test Systems zero/tare Rotating circular keyed shaft Series Integral coupling Series Approved subject to change. Questions? Contact us at either , 293

8 Output Input Serial Number UP DOWN SETUP ENTER EXIT MENU VIEW TEST TARE HOLD ESC RESET ENTER TORQUE Model 1103 Low Capacity Torque Sensor Combine the order code and the desired torque range oz-in. For example: Range (oz-in) 1103 Model 1103 low capacity torque sensor Higher frequency response Lower cost for general in-line applications Can be used with almost all existing dc and ac signal conditioning equipment Enhanced accuracy for in-line torque measurements Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred Honeywell In-Line Amplifier Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Performance Torque range 10, 20 oz-in Non-linearity ±0.05 % of rated output Hysteresis ±0.05 % of rated output Repeatability ±0.05 % of rated output rated capacity ±0.95 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 240 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output termination PT02E-10-6P Mechanical oz-in N-m Max speed RPM Overload capacity (% of nominal capacity) Torsional stiffness lb-in/rad Rotating inertia lbin/sec x x Weight (lb) Optional Calibration Arm MODEL 1103 OR OR OR lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Lebow Products MODEL 7541 Mounting dimensions and characteristics C cm 10,16 [4.00] L cm 7,30 [2.88] N cm 1,43 [0.56] P cm 3,81 [1.50] U cm 0,32 [0.12] K cm 0,64 flat [0.25 flat] A cm 0,24 [0.09] B cm 5,70 [2.25] D cm 2,50 [1.00] E cm 2,38 [0.94] F cm 1,90 [0.75] H cm 0,37 [0.14] Mating Connectors & Cables 023-LW LF Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum K MANUAL BRUSH LIFTER STANDARD PTO2E-10-6P U DIA. D A P H 4 MOUNTING HOLES N F F N E E L B C For reference only 294 Questions? Contact us at either , subject to change.

9 Output Input Serial Number VALUE CLEAR CHAN TARE UP DOWN SETUP ENTER EXIT MENU VIEW TEST TARE HOLD ESC RESET ENTER TORQUE Model 1102 Low Capacity Torque Sensor Combine the order code and the desired torque range oz-in. For example: Range (oz-in) 1102 Model 1102 low capacity torque sensor Higher frequency response Lower cost for general in-line applications Can be used with almost all existing dc and ac signal conditioning equipment Enhanced accuracy for in-line torque measurements Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV-05 DA-05 DV10 For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred Optional Calibration Arm 0 +/- 5 VDC (3 wire) 4-20mA (3 wire) 0 +/- 10 VDC (3 wire) OR OR Honeywell In-Line Amplifier lb. L1 L2 L3 L4 OR Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Lebow Products MODEL 7541 Performance Torque range 50, 100, 200, 500, 1000 oz-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity ±2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output termination PT02E-10-6P Mechanical oz-in N-m Max speed RPM Overload capacity (% of nominal capacity) Torsional stiffness lbin/rad Rotating inertia lb-in/ sec x x x x x Weight (lb) Optional Speed Sensor MODEL 1102 Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mounting dimensions and characteristics C cm L cm N cm P cm U cm K cm A cm B cm D cm E cm F cm H cm Mating Connectors & Cables 023-LW LF Mating connector 023-LW LF Mating connector, standard speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable ( for connection to instrument 7541) XX** Mating connector & 4 conductor cable ( for connection to instrument 7541) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument ,50 [6.50] 5,70 [2.25] 2,50 [1.00] 8,90 [3.50] 0,95 [0.37] MANUAL BRUSH LIFTER STANDARD PTO2E-10-6P 1,90 flat [0.75 flat] OPTIONAL SPEED SENSOR 0,86 [0.34] 10,50 [4.13] 4,44 [1.75] P 4,44 [1.75] 2,50 [1.00] 0,50 [0.20] * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximu m K U DIA. A D H 4 MOUNTING HOLES N L F F C N E B E For reference only subject to change. Questions? Contact us at either , 295

10 Model 1104 to 1121 Standard Rotating Shaft Torque Sensor Combine the order code and the desired torque range oz-in. For example: Range (oz-in) 1104 Model 1104 low capacity torque sensor, 100 lb-in to 2000 lb-in capacity 1105 Model 1105 low capacity torque sensor, 5000 lb-in to lb-in capacity 1106 Model 1106 low capacity torque sensor, lb-in capacity 1107 Model 1107 low capacity torque sensor, lb-in to lb-in capacity 1108 Model 1108 low capacity torque sensor, lb-in to lb-in capacity 1109 Model 1109 low capacity torque sensor, lb-in to lb-in capacity 1118 Model 1118 low capacity torque sensor, lb-in to 1800K lb-in capacity 1121 Model 1121 low capacity torque sensor, 2400K lb-in to 3000K lb-in capacity Higher frequency response Lower cost for general in-line applications Can be used with almost all existing dc and ac signal conditioning instrumentation Enhanced accuracy for in-line torque measurements Performance Torque range 100 lb-in to 3000K lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity ±2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output termination MS-3102E-14S-5P Mechanical Model lb-in N-m Max speed RPM Overload capacity (% of nominal capacity) Torsional stiffness lb-in/rad Rotating inertia lb-in/sec 2 Weight (lb) x x x x x x x x K K K K Questions? Contact us at either , subject to change.

11 Output Input Serial Number SETUP ESC RESET ENTER TORQUE Mounting dimensions and characteristics Model C cm L cm N cm P cm U cm K cm A cm B cm D cm E cm F cm H cm 1104 (100 lb to 200 lb) 25,40 [10] 14,76 [5.81] 5,32 [2.09] 10,16 [4] 1,91 [0.75] 0,46 sq. [0.18 sq] 12,07 [4.75] 8,89 [3.50] 5,40 [2.13] 5,08 [2.0] 3,49 [1.38] 0,71 [0.28] 1104 (> 200 lb) 25,40 [10] 14,76 [5.81] 5,32 [2.09] 10,16 [4] 2,54 [1.0] 0,64 sq. [0.25 sq.] 12,07 [4.75] 8,89 [3.50] 5,40 [2.13] 5,08 [2.0] 3,49 [1.38] 0,71 [0.28] ,39 [12.75] 18,42 [7.25] 6,99 [2.75] 11,99 [4.72] 3,81 [1.50] 0,95 sq. [0.38 sq.] 16,51 [6.25] 10,16 [4] 6,35 [2.50] 6,67 [2.63] 3,81 [1.50] 1,03 [0.41] ,15 [14.63] 17,46 [6.88] 9,84 [3.88] 13,47 [5.50] 5,72 [2.25] 1,27 sq. [0.50 sq.] 18,42 [7.25] 13,34 [5.25] 7,62 [3] 7,62 [3] 5,08 [2] 1,35 [0.53] ,26 [19] 19,05 [7.5] 14,61 [5.75] 16,51 [6.50] 7,62 [3.0] 1,91 sq. [0.75 sq.] 21,59 [8.50] 13,97 [5.50] 8,89 [3.50] 8,89 [3.50] 5,08 [2] 1,35 [0.53] ,34 [21] 22,23 [8.75] 15,56 [6.13] 22,54 [8.88] 11,43 [4.50] 2,54 sq. [1 sq.] 25,40 [10] 15,24 [6] 12,70 [5] 10,80 [4.25] 5,72 [2.25] 1,35 [0.53] ,12 [28] 28,58 [11.25] 21,27 [8.38] 26,04 [10.25] 12,70 [5] 2,54 sq. [1 sq.] 29,21 [11.5] 15,24 [6] 14,61 [5.75] 12,70 [5] 5,72 [2.25] 1,35 [0.53] ,44 [36] 25,40 [10] 33,02 [13] 30,48 [12] 20,16 [7.94] 5,08 sq. [2 sq.] n/a n/a n/a n/a n/a n/a ,68 [42] 25,40 [10] 40,64 [16] 33,02 [13] 22,70 [8.94] 5,08 sq. [2 sq.] n/a n/a n/a n/a n/a n/a MS-3102E-14S-5P N For reference only F B L C F MANUAL BRUSH LIFTER STANDARD AIR ACTUATED LIFTER OPTIONAL OPTIONAL SPEED SENSOR ATTACH RESTRAINING STRAP WHEN NOT FOOT MOUNTED 1/4-20 UNF. THRU K N U DIA D OPTIONAL FOOT MOUNT E P A E H 4 HOLES Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred Honeywell In-Line Amplifier Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Optional Calibration Arm (for in-lbs) (for in-lbs) lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE MODEL 1104 OR UP DOWN ENTER EXIT OR Lebow Products MODEL 7541 MENU VIEW TEST TARE HOLD Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Optional Foot Mounts 1104: : : : : : Optional Speed Sensor Zero Velocity Pickup Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX**Mating connector & 4 conductor cable (for connection to instrument 7541) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum subject to change. Questions? Contact us at either , 297

12 Model 1228/1248 Flange Drive Torque Sensor Combine the order code and the desired torque range lb-in. For example: K Range (lb-in) 1228 Model 1228 flange drive torque sensor, 2000 to lb-in 1248 Model 1248 flange drive torque sensor, lb-in Special application flanges Short drive length High stiffness for increased frequency response An industry military standard for pump and driveline testing Performance Torque range , 5000, lb-in lb-in Non-linearity ±0.15 % of rated output Hysteresis ±0.15 % of rated output Repeatability ±0.05 % of rated output rated capacity ±2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output termination MS3102E-14S-5P Mechanical Model lb-in N-m Max speed RPM Overload capacity (% of nominal capacity) Torsional stiffness lb-in/rad Rotating inertia lb-in/sec 2 Weight (lb) x x x x Questions? Contact us at either , subject to change.

13 Output Input Serial Number ESC RESET ENTER TORQUE Mounting dimensions and characteristics Typical system diagram Model C cm ,41 [3.31] ,95 [4.31] N cm 0,95 [0.38] 1,43 [0.56] MS-3102E-14S-5P FIXED BRUSH CARRIER REMOVABLE FOR CLEANING P cm 12,22 [4.81] 14,30 [5.63] F cm 7,94 [3.13] 9,21 [3.63] J cm OPTIONAL SPEED SENSOR ROTATING DRIVE FLANGE-BOTH ENDS U cm [1/4-28] 8,89 [3.50] [3/8-24] 10,80 [4.25] H cm 0,32 [0.13] 0,79 [0.31] A cm n/a n/a In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply For reference only U DIA BOTH ENDS N C N P #10-24 UNF THRU ATTACH RESTRAINING H STRAP F J 8 HOLES For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL OR OR Honeywell In-Line Amplifier lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT OR Lebow Products MODEL 7541 MENU VIEW TEST TARE HOLD Optional Speed Sensor Standard Sensor (for Model 1228) (for Model 1248) Zero Speed Sensor (for Model 1228) (for Model 1248) Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX**Mating connector & 4 conductor cable (for connection to instrument 7541) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum subject to change. Questions? Contact us at either , 299

14 Model 1254 and 1254E Series Socket Wrench Torque Sensor Adaptable for portable usage No special adapter tools required Repeatable torque measurements Calibration reference for hard usage mechanical torque wrenches Notes 1. With encoder, 185 F Combine the order code and the desired torque range lb-in or lb-ft. For example: Range (lb-in) 1254 Model 1254 socket wrench torque sensor 1254E Model 1254 socket wrench torque sensor with encoder Performance Torque range 50, 100, 200 lb-in; 50, 100, 300, 1000 lb-ft Non-linearity ±0.15 % of rated output Hysteresis ±0.15 % of rated output Repeatability ±0.1 % of rated output rated capacity ±2 mv/v ±0.25 % full scale Temperature, operating -54 C to 93 C [-65 F to 200 F] 1 Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (recommended) 10 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Zero balance ±5 % or better of rated output 1254E specifications Pulses per revolution 360 Output 2 square wave signal 90 phase difference flat over operating speed range Output voltage High 5 V, Low 0.5 V (output will drive two standard TTL loads) Power required 5 40 ma max. 300 Questions? Contact us at either , subject to change.

15 ESC RESET TORQUE Mounting dimensions and characteristics Model without encoder Model with encoder Capacity Capacity N m Overload capacity Drive Speed RPM A in B in C in D in E in E lb-in % 1/4 in hex E lb-in % 1/4 in hex E lb-in % 3/8 in sq E lb-ft % 1/2 in sq E lb-ft % 1/2 in sq E lb-ft % 3/4 in sq E lb-ft % 1 in sq Typical system diagram Mating Connectors & Cables 023-LW LF Mating connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX* Mating connector & 6 conductor cable ( for connection to instrument 7554) * XX represents length in feet 100ft maximum B A E Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD (Torque Only) (RPM) Lebow Products MODEL 7541 MENU VIEW TEST TARE HOLD ENTER C D For reference only Receptacle: PT02H-12-10P Mating connector: PT06E-12-10S Model 1254/1254E subject to change. Questions? Contact us at either , 301

16 Model 1602 Low Capacity Torque Sensor Combine the order code and the desired torque range oz-in. For example: Range (oz-in) 1602 Model 1602 low capacity torque sensor High overload protection with high signal output (sensitivity) Extended speed range Minimal maintenance due to bearings only contact Carrier frequency excitation provides increased signal/noise immunity Performance Torque range 50, 100, 200, 500, 1000 oz-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 3.28 khz 10 Vac max. RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity oz-in Capacity N-m Max speed RPM Protected for overloads to oz-in Torsional stiffness lb-in/rad Rotating inertia lbin/sec 2 Weight kg [lb] * x ,48 [3.25] x ,48 [3.25] x ,48 [3.25] x ,48 [3.25] K x ,48 [3.25] * Output on this capacity only 1 mv/v nominal 302 Questions? Contact us at either , subject to change.

17 ESC RESET TORQUE Typical system diagram Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum Mounting dimensions and characteristics C cm L cm N cm P cm U cm K cm A cm 16,50 [6.50] 5,71 [2.25] 2,50 [1.0] 8,89 [3.50] 0,95 [0.37] 1,90 [0.75] 0,86 [0.34] B cm D cm E cm F cm H cm J cm 10,16 [4.00] 4,44 [1.75] 4,44 [1.75] 2,50 [1.00] 0,50 [0.20] 6,03 [2.38] OPTIONAL SPEED SENSOR RECEP. MS-3102E-14S-5P K EACH END Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units (Single Channel Display) (Dual Channel Display) (For Torque and Optional Speed Display) J N F F N U Lebow Products MODEL 7541 L C MENU VIEW TEST TARE HOLD ENTER P Optional Speed Sensor A Optional Calibration Arm E H 4 HOLE Model 1602 D D For reference only B subject to change. Questions? Contact us at either , 303

18 Model Standard Rotating Shaft Torque Sensor Combine the order code and the desired torque range lb-in. For example: Range (lb-in) 1604 Model 1604 rotary transformer torque sensor, 50 lb-in to 2000 lb-in 1605 Model 1605 rotary transformer torque sensor, 2000 lb-in to lb-in 1606 Model 1606 rotary transformer torque sensor, lb-in to lb-in 1607 Model 1607 rotary transformer torque sensor, lb-in to lb-in High overload protection with high signal output (sensitivity) Extended speed range Minimal maintenance due to bearings only contact Carrier frequency excitation provides increased signal/noise immunity Performance Torque range 50 lb-in to lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation 3.28 khz 10 Vac max. RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity lb-in Capacity N-m Max speed RPM Protected for overloads to lb-in Torsional stiffness lb-in/rad Rotating inertia lb-in/sec 2 Weight kg [lb] x ,20 [18] x ,20 [18] x ,20 [18] x ,20 [18] K x ,20 [18] K x ,20 [18] K x ,70 [28] K x ,70 [28] K x ,70 [28] K x ,20 [40] K x ,20 [40] K ,10 [75] K ,10 [75] 304 Questions? Contact us at either , subject to change.

19 ESC RESET ENTER TORQUE Mounting dimensions and characteristics Model C cm L cm N cm P cm U cm K cm A cm B cm D cm E cm F cm H cm ,40 [10] 15,24 [6] 5,32 [2] 10,16 [4] 2,54 [1.00]* 0,64 [0.25 sq]* 12,07 [4.75] 8,89 [3.50] 5,40 [2.13] 5,08 [2] 3,49 [1.38] 0,71 [0.28] ,39 [12.75] 18,42 [7.25] 6,99 [2.75] 11,99 [4.75] 3,81 [1.50] 0,95 [0.38 sq.] 16,51 [6.25] 10,16 [4] 6,35 [2.50] 6,67 [2.63] 3,81 [1.50] 1,03 [0.41] ,01 [15.75] 20,96 [8.25] 9,53 [3.75] 13,97 [5.50] 5,72 [2.25] 1,27 [0.50 sq.] 18,42 [7] 13,34 [5.25] 7,62 [3] 7,62 [3] 5,08 [2] 1,35 [0.53] ,26 [19] 22,23 [8.75] 13,02 [5.13] 16,51 [6.50] 7,62 [3.00] 1,91 [0.75 sq.] 24,59 [8.50] 13,97 [5.50] 8,89 [3.50] 8,89 [3.50] 5,08 [2] 1,35 [0.53] * 50, 100, 200 lb-in units: K=3/16 in sq., U=3/4 in OPTIONAL SPEED SENSOR Typical system diagram RECEP. MS-3102E-14S-5P N F P B L C F 1/4-28 UNF. THRU ATTACH RESTRAINING STRAP WHEN NOT FOOT MOUNTED N U DIA K Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units (Single Channel Display) (Dual Channel Display) (For Torque and Optional Speed Display) Lebow Products MODEL H 4 HOLES MENU VIEW TEST TARE HOLD OPTIONAL FOOT MOUNT E A E Optional Speed Sensor Zero Velocity Pickup For reference only Model 1604 Optional Calibration Arm (for in-lbs) (for in-lbs) Optional Foot Mount 1604: : : : subject to change. Questions? Contact us at either , 305

20 Model 1700 Series Non-Contact/ Amplified Output Torque Transducer Built-in instrumentation amplifier (±10 V output) Contactless Single supply voltage Compact size Wide application range OPTIONS: Speed sensing (S) option Angle encoder (E) option Combine the order code and the desired torque range Nm. For example: Range (Nm) 1700 Model 1700 non-contact/amplified output torque transducer, 0.02 Nm to 0.05 Nm 1701 Model 1701 non-contact/amplified output torque transducer, 0.1 Nm to 2 Nm 1702 Model 1702 non-contact/amplified output torque transducer, 5 Nm to 20 Nm 1703 Model 1703 non-contact/amplified output torque transducer, 50 Nm to 300 Nm 1706 Model 1706 non-contact/amplified output torque transducer, 500 Nm to 1500 Nm Performance Torque range 0.02, 0.05, 0.1, 0.2, 0.5, 1, 2, 5, 10, 20, 50, 100, 200, 300, 500, 1000, 1500 Nm Temperature, operating 0 C to 60 C [32 F to 140 F] Temperature, compensated 5 C to 45 C [41 F to 113 F] Temperature effect, zero 0.02 %/ K Temperature effect, span 0.01 %/ K Supply voltage 12 Vdc ±10 % Current consumption less than 200 ma Rise time ms ms (1 Hz) Limit frequency (3dB) 200 Hz (none for 1706) Voltage output 0 V to ±10 V Internal resistance 100 ohm Ripple <100 mvpp Overall accuracy <0.25 % Mechanical Mechanical overload 200 % of rated output Speed sensing (RPM) (S) option Speed max RPM Output Open collector Internal pull-up 100 kohm (5 V level) External pull-up 24 V max. I max. 20 ma Pulses/rev. 60 Angle (E) option Speed max RPM Pulses/rev. 360 Resolution 1 Phase shift Quadrature Model Range (Nm) Spring constant C (Nm/rad) Mass moment of inertia (g/cm 2 ) Maximum permissible axial load (N) to 0,1 80 1, to 0,2 80 1, to 0, , to , to , , , , , , , , Maximum permissible radial load (N) 306 Questions? Contact us at either , subject to change.

21 SETUP TORQUE Mounting dimensions and characteristics Model dimensions 0.02/0.05 Nm 0.1/0.2/0.5/1 Nm 2 Nm 5/10/20 Nm 50/100/200/300 Nm 500/1000/1500 Nm L mm B mm H mm 46 48,5 48, H1 mm D1 g6 mm Ø3 Ø5 Ø6 Ø15 Ø26 Ø45 D2 g6 mm Ø3 Ø8 Ø8 Ø15 Ø26 Ø45 D3-0,1 mm Ø15 Ø27 Ø27 Ø38 Ø54 Ø80 D4 H7 mm - Ø2 Ø LK ±0,1 mm * Ø32 Ø32 Ø46 Ø65 Ø98 L1 mm L2 mm L3 mm L4 mm L5-0,1 mm A1 mm A2 mm M1 M2.5 x 5 deep M3 x 5 deep M3 x 5 deep M3 x 6 deep M4 x 8 deep M6 x 12 deep M2 M2.5 x 5 deep M3 x 6 deep M3 x 6 deep M3 x 6 deep M4 x 8 deep M6 x 12 deep M M8 x 15 deep M10 x 20 deep P (DIN6885) x A5 x 5 x 25 2 x A8 x 7 x 40 4 x A14 x 9 x 80 * consult factory L 90º Typical system diagram L 1 45º Mating Connectors & Cables D 3 D 2 L 3 D 4 L 2 P D 1 M 3 M 2 LK H 023-LW LF Mating connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) * XX represents length in feet 100ft maximum M 1 L 4 L 5 A 2 B H 1 Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units 7559 (for Torque Display) 7560 (for RPM Display) For reference only A lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT External DC Power Supply (Required) DC-DC Transformer (Optional) Model 1700 subject to change. Questions? Contact us at either , 307

22 Model Enhanced Accuracy Rotary Torque Sensor Combine the order code and the desired torque range lb-in. For example: Range (lb-in) 1804 Model 1804 enhanced accuracy rotary torque sensor, 100 lb-in to 2000 lb-in 1805 Model 1805 enhanced accuracy rotary torque sensor, 2000 lb-in to lb-in 1806 Model 1806 enhanced accuracy rotary torque sensor, lb-in 1807 Model 1807 enhanced accuracy rotary torque sensor, lb-in to lb-in Enhanced accuracy High overload protection with high signal output (sensitivity) Extended speed range Minimal maintenance due to bearings only contact Carrier frequency excitation provides increased signal/noise immunity 100 lb-in to lb-in capacities Model 7927 shunt cal reference box included with each purchase of 1800 Series. Performance Torque range 100, 200, 500, 1K, 2K, 5K, 10K, 20K, 50K, 100K lb-in Non-linearity ±0.05 % of rated output Hysteresis ±0.05 % of rated output Repeatability ±0.02 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -30 C to 77 C [-20 F to 170 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.001 %/of rated output F Temperature effect, output ±0.001 %/of reading F Excitation 3.28 khz 10 Vac RMS Insulation resistance > Vdc Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity lb-in Capacity N-m Max speed RPM* Protected for overloads to Nm [lb-in] Torsional stiffness lb-in/rad. Rotating inertia lb-in/sec 2 Weight kg [lb] [300] x ,20 [18] [600] x ,20 [18] [1500] x ,20 [18] K [3000] x ,20 [18] K [3000] x ,20 [18] K [6000] x ,20 [29] K [15000] x ,20 [29] K [20000] x ,20 [29] K [30000] 3.27 x x 10-2 [55.90] K [150000] x [85.20] K [150000] x [85.20] Consult factor for higher speed ratings when used with air/oil mist bearings. 308 Questions? Contact us at either , subject to change.

23 ESC RESET ENTER TORQUE Mounting dimensions and characteristics Model C cm L cm N cm P cm U cm K cm A cm B cm D cm E cm F cm H cm ,40 [10] 14,76 [6] 5,32 [2] 10,16 [4] 2,54 [1.00]* 0,64 [0.25 sq]* 12,07 [4.75] 8,89 [3.50] 5,40 [2.13] 5,08 [2] 3,49 [1.38] 0,71 [0.28] ,39 [12.75] 18,42 [7.25] 6,99 [2.75] 11,99 [4.75] 3,81 [1.50] 0,95 [0.38 sq.] 16,51 [6.25] 10,16 [4] 6,35 [2.50] 6,67 [2.63] 3,81 [1.50] 1,03 [0.41] ,01 [15.75] 20,96 [8.25] 9,53 [3.75] 13,97 [5.50] 5,72 [2.25] 1,27 [0.50 sq.] 18,42 [7] 13,34 [5.25] 7,62 [3] 7,62 [3] 5,08 [2] 1,35 [0.53] ,26 [19] 22,23 [8.75] 13,02 [5.125] 16,51 [6.50] 7,62 [3.00] 1,91 [0.75 sq.] 24,59 [8.50] 13,97 [5.50] 8,89 [3.50] 8,89 [3.50] 5,08 [2] 1,35 [0.53] * 100, 200 lb-in units: K=3/16 in sq., U=3/4 in OPTIONAL SPEED SENSOR Typical system diagram MS-3102E-14S-5P N P F C B L F 1/4-20 x.50 DEEP TAPPED HOLE 2 PLACED 180 APART ON OPPOSITE SIDES FOR RESTRAINING STRAP WHEN NOT FOOT MOUNTED. N K OPTIONAL FOOT MOUNT U DIA Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units (Single Channel Display) (Dual Channel Display) (For Torque and Optional Speed Display) Lebow Products MODEL 7541 D H 4 HOLES MENU VIEW TEST TARE HOLD Model for connection to 7541 For reference only A E RUN CAL Optional Speed Sensor Zero Velocity Pickup Model Optional Calibration Arm (for in-lbs) (for in-lbs) Optional Foot Mount 1804: : : : subject to change. Questions? Contact us at either , 309

24 Model 1815 Enhanced Accuracy Rotary Torque Sensor Shortened drive length Extended speed range Minimal maintenance due to bearings only contact Enhanced overall performance accuracy Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Model 7927 shunt cal reference box included with each purchase of 1800 Series. Flange housing mount with pads to match Army-Navy mountings standard. Spline drive. Combine the order code and the desired torque range lb-in. For example: 1815A A 1815K Range (lb-in) Model 1815 enhanced accuracy rotary torque sensor, 50 lb-in to 1000 lb-in Model 1815 enhanced accuracy rotary torque sensor, 50 lb-in to lb-in Performance Torque range 50, 100, 200, 500, 1K, 2K, 5K, 10K lb-in Non-linearity ±0.05 % of rated output Hysteresis ±0.05 % of rated output Repeatability ±0.03 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation 3.28 khz 10 Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity lb-in Capacity N-m Max speed RPM 1815A [150] 1815A [300] 1815A [600] 1815A [1500] 1815A-1K [1500] 1815K [150] 1815K [300] 1815K [600] 1815K [1500] 1815K-1K [3000] 1815K-2K [6000] 1815K-5K [15000] 1815K-10K [15000] Protected for overloads to Nm [lb-in] Internal and external spline data Model Pressure angle Pitch dia. cm Pitch Number of teeth 1815A 30 2,03 [0.80] 20/ K 30 3,05 [1.20] 20/ Questions? Contact us at either , subject to change.

25 ESC RESET ENTER TORQUE Mounting dimensions and characteristics Model A cm B cm C cm D cm E cm F cm G cm H cm J cm K cm L cm N cm P cm 1815A 23,55 [9.27] 2,67 [1.05] 1,60 [0.63] 2,84 [1.12] 20,96 [8.25] 0,36 [0.14] 10,47 [4.12] 10,48 [4.13] 2,62 [1.03] 1,03 [0.41] 12,70 [5.00] 15,24 [6.00] 3/ K 25,25 [9.94] 4,29 [1.69] 1,60 [0.63] 4,01 [1.58] 20,96 [8.25] 0,36 [0.14] 10,47 [4.12] 10,48 [4.13] 2,62 [1.03] 1,03 [0.41] 12,70 [5.00] 15,24 [6.00] 3/8-24 MS-3102E-L4S-5P C OPTIONAL SPEED SENSOR Typical system diagram H D P J F E A FLANGE & SHAFT PER AND N G FLANGE & SHAFT PER AND B K 6 HOLES Mating Connectors & Cables 064-LW13621 Mating connector 064-LW13656 Mating connector, speed pickup 064-LW25469 Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 * XX represents length in feet 100ft maximum For reference only Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Display Units (Single Channel Display) (Dual Channel Display) (For Torque and Optional Speed Display) Lebow Products MODEL 7541 MENU VIEW TEST TARE HOLD Model for connection to 7541 RUN CAL Optional Speed Sensor Zero Velocity Pickup Model 1815 subject to change. Questions? Contact us at either , 311

26 Output Input Serial Number ESC RESET VALUE CLEAR CHAN TARE UP DOWN SETUP ENTER EXIT ENTER TORQUE Model 1246 Wheel Torque Sensor Combine the order code and the desired torque range lb-in. For example: K Range (lb-in) 1246 Model 1246 wheel torque sensor, 20K to 36K lb-in At-the-source torque measurement Large selection of capacities available Wheel centerline offset correction available for cornering testing Special application versions available Typical system diagram For long cable runs or electrically noisy environments an amplifier close to sensor is often preferred Honeywell In-Line Amplifier Power supply Customer supplied Chart recorder Alarm panel Data acquisition Computer PLC Performance Torque range K, 30K, 36K lb-in Non-linearity ±0.25 % of rated output Hysteresis ±0.25 % of rated output Repeatability ±0.1 % of rated output rated capacity ±1.5 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 700 ohm (nominal) Number of bridges 1 Zero balance ±5.0 % of rated output OR OR lb. L1 L2 L3 L4 Mounting dimensions and characteristics C/L OF TIRE WITHOUT TRANSDUCER INSTALLED CORRECTING FOR TIRE CENTER LINE OFFSET BY USING SPECIALLY DESIGNED WHEEL RIMS C/L OF TIRE WITH TRANSDUCER INSTALLED In-line amplifiers (Used with unamplified units only) Lebow Products MODEL 7541 MENU VIEW TEST TARE HOLD Amplifier Output Universal in-line amplifiers UV ± 5 Vdc UV-10 ± 10 Vdc UBP 0 ± 5 Vdc U3W 4 ma to 20 ma (3 wire) DIN rail mount in-line amplifiers DV-05 0 ± 5 Vdc (3 wire) DA-05 4 ma to 20 ma (3 wire) DV10 0 ± 10 Vdc (3 wire) Optional Speed sensor Zero velocity pickup Display units 7541 SC SC1000 GM (For optional SC2001 NK speed display) SC3004 HH 7561-PSD BRAKE DRUM TORQUE SENSOR WHEEL ADAPTER LUG NUTS STANDARD WHEEL AND TIRE ASSEMBLY SLIP RING ASSEMBLY Mating connectors & cables 023-LW LF Mating connector 023-LW LF Mating connector, standard speed pickup 023-LW Mating connector, zero velocity speed pickup XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable for connection to instrument XX** Mating connector & 4 conductor cable for connection to instrument XX* Speed sensor cable, pigtail leads at instrument XX* Speed sensor cable to instrument XX* Zero velocity speed sensor cable, pigtail leads at instrument XX* Zero velocity speed sensor cable to instrument 7541 For reference only EXTERNALLY THREADED FOR LUG NUTS INTERNALLY THREADED FOR SLIP RING ASSY HOLD DOWN BOLTS LUG NUTS * XX represents length in feet 100 ft maximum ** XX represents length in feet 20 ft maximim 312 Questions? Contact us at either , subject to change.

27 Output Input Serial Number VALUE CLEAR CHAN TARE UP DOWN SETUP ENTER EXIT TORQUE Model Sprocket/ Pulley Torque Sensor Combine the order code and the desired torque range lb-in. For example: K Range (lb-in) Model sprocket/pulley torque sensor High torsional stiffness Reduced sensitivity to belt/chain tension loads on torque readings* Elimination of torque error due to bearing losses in jack-shaft assembly Measurements of torque at the source Rotary transformer with encoder option available * not to exceed maximum overhung moment Mounting dimensions and characteristics A cm 14,67 [5.78] B cm 13,170/13,172 [5.185/5.186] 5/16-24 UNF. TAPPED HOLES FOR SET SCREWS For reference only C cm D cm 5,08 [2] 13,02 [5.13] TIGHTEN TO 17 FT. LBS. MAX. AT FINAL CUSTOMER ASSEMBLY F 5/16-24 THD. G LONG BOLD ON A H DIA. 3 PLACES E cm 4,45 [1.75] SPROCKET 5.74 MIN. P.D. CUSTOMER FURNISHED CUSTOMER TO MOUNT RECEP. PT02H-10-6P B I C MODEL SLIP RING ASSEMBLY E D F cm 2,858/2,863 [1.125/1.127] A 5/16-24 UNF. THRU HOLES FOR MOUNTING CUSTOMER SPROCKET OR PULLEY G cm 2,54 [1.50] H cm 9,53 [3.75] #6-40 UNF. BOLTS ON A DIA. B.C. I cm 0,64 [0.25] Performance Torque range 500, 1000 lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.15 % of rated output rated capacity 2.0 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero % of rated output/ F Temperature effect, output % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 360 ohm (nominal) Zero balance <1.0 % of rated output termination PT02H-10-6P Mechanical RPM (max.) 5000 Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL 1388 Honeywell In-Line Amplifier lb. L1 L2 L3 L4 Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mating Connectors & Cables 023-LW LF Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum subject to change. Questions? Contact us at either , 313

28 Output Input Serial Number VALUE CLEAR CHAN TARE UP DOWN SETUP ENTER EXIT TORQUE Model 1369 Steering Effort Torque Sensor Combine the order code and the desired torque range ft-lb. For example: Range (ft-in) 1369 Model 1369 steering effort torque sensor Direct to steering column attachment True steering torque - feedback for automobiles, trucks, buses, and material handling equipment Torque to position capability Mounting dimensions and characteristics 1/4-20 UNC-28 THD. 1/2 DEEP 8 HOLES EQUALLY SPACED ON DIA. B.C. M Z 3.25 APPROX /4-20 UNC-28 THD.-1/2 DEEP 4 HOLES EQUALLY SPACED SAE-10 SPLINE FITTING FOR RESTRAINING (10A PERMANENT FIT).75 45º.25 STEERING COLOMN Ø Ø Performance Torque range 50, 100, 200 lb-ft Non-linearity <0.50 % of rated output Hysteresis <0.50 % of rated output Repeatability ±0.35 % of rated output rated capacity ±2 mv/v (nominal) Temperature, operating -29 C to 93 C [-20 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 % of rated output/ F Temperature effect, output ±0.002 % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 700 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical RPM 100 Overload 150 % of rated output For reference only RECEPT. BENDIX # B PIQZE-12-8P MATING CONN. FURNISHED Typical system diagram Ø 5 Ø Model Capacity lb-ft Capacity Nm Protected for overloads to lb-ft Protected for overloads to Nm In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Honeywell In-Line Amplifier For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL lb. L1 L2 L3 L4 Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mating Connectors & Cables 023-LW LF Mating Connector 314 Questions? Contact us at either , subject to change.

29 Output Input Serial Number UP DOWN SETUP ENTER EXIT TORQUE Model 2120 Shaft Reaction Torque Sensor Combine the order code and the desired torque range oz-in. For example: Range (oz-in) 2120 Model 2120 shaft reaction torque sensor No maintenance of slip rings, bearings, or brushes Minimal friction error Low-end sensitivity Reaction measurement designed to eliminate speed limitations Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL 2120 Optional Calibration Arm Honeywell In-Line Amplifier Display Units Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mating Connectors & Cables lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE 023-LW Mating connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum Performance Torque range 50, 100, 200, 500, 1000 oz-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero % of rated output/ F Temperature effect, output % of reading/ F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Model Capacity Nm [oz-in] Mounting dimensions and characteristics R Overload Nm [oz-in] Torsional stiffness Nm/rad [lb-in/rad] U Max. overhung moment WxS Nm [lb-in] PTO2E-10-6P Max. shear W N [lb] Max. thrust P N [lb] [50] 1.06 [150] 34 [300] 0.35 [3.10] [2.60] [12] [100] 2.16 [300] 101 [890] 0.71 [6.25] [3.60] 155 [35] [200] 4.32 [600] 261 [2310] 1.41 [12.50] [5.00] 265 [60] [500] 7.00 [1000] 289 [2560] 3.53 [31.25] [10] 535 [120] K 7.00 [1000] [1500] 580 [5130] 7.06 [62.50] [16] 625 [140] Model C cm L cm N cm R cm U cm P cm T cm ,43 [4.50] 4,76 [1.88] 3,33 [1.31] 1,91 [0.75] 0,95 [0.37] 5,56 [2.19] 0,86 [0.34] T FLAT BOTH ENDS For reference only L C N P subject to change. Questions? Contact us at either , 315

30 Model Shaft Reaction Torque Sensor No maintenance of slip rings, bearings, or brushes Reduced friction error Low-end sensitivity Reaction measurements eliminate speed limitations Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Combine the order code and the desired torque range lb-in. For example: K Range (lb-in) 2121 Model 2121 shaft reaction torque sensor, 100 lb-in to 2000 lb-in 2122 Model 2122 shaft reaction torque sensor, 5000 lb-in to lb-in 2124 Model 2124 shaft reaction torque sensor, lb-in 2125 Model 2125 shaft reaction torque sensor, lb-in to lb-in 2126 Model 2126 shaft reaction torque sensor, lb-in to lb-in Performance Torque range 100, 200, 500, 1K, 2K, 5K, 10K, 20K, 50K, 100K, 200K, 500 K lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal)* Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output * Model K output at rated capacity is 2.7 mv/v nominal. Higher capacities available. Consult factory for details. Mechanical Model Capacity Nm [lb-in] Overload Nm [lb-in] Torsional stiffness Nm/rad [lb-in/rad] Max. overhung moment WxS Nm [lb-in] Max. shear W N [lb] Max. thrust P N [lb] Key size square cm [100] 15 [150] 726 [6430] [100] 89 [20] 1245 [280] 0,48 [0.19] [200] 30 [300] 1921 [17000] [200] 115 [26] 1780 [400] 0,48 [0.19] [500] 85 [750] 5107 [45200] [250] 2225 [500] 2225 [500] 0,64 [0.25] K 115 [1000] 170 [1500] [103000] [500] 4450 [1000] 2935 [660] 0,64 [0.25] K 225 [2000] 340 [3000] [197000] [1000] 6675 [1500] 8900 [2000] 0,64 [0.25] K 565 [5000] 850 [7500] [379000] [2000] 9340 [2100] [3000] 0,95 [0.38] K 1130 [10000] 1695 [15000] [750000] [5000] [4000] [6000] 0,95 [0.38] K 2250 [20000] 3390 [30000] [ ] K 5650 [50000] 8475 [75000] [ ] K [100000] [150000] [ ] K [200000] [300000] [ ] 1130 [10000] [6500] [10000] 1,27 [0.50] 2710 [24000] [12000] [18000] 1,91 [0.75] 5650 [50000] [20000] [30000] 1,91 [0.75] [90000] [30000] [40000] 2,54 [1] K* [500000] [750000] [ ] [150000] [42000] [60000] 2,54 [1] * Calibration performed to lb-in. Consult factory for higher calibrations. Metric dimensions and specifications are purely mathematical calculations from Standard English dimension control drawings. Request certified drawings before designing mountings or fixtures. Dimensions and specifications are subject to change without notice. 316 Questions? Contact us at either , subject to change.

31 Output Input Serial Number SETUP TORQUE Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Honeywell In-Line Amplifier Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply Mounting dimensions and characteristics Model C cm L cm N cm P cm U cm * R cm , , -1K, -2K K, -10K 25,40 [10] 6,03 [2.38] 5,72 [2.25] 5,08 [2] 1,91 [0.75] 14,29 [0.56] 25,40 [10] 6,03 [2.38] 5,72 [2.25] 5,08 [2] 2,54 [1] 14,29 [0.56] 32,40 [12.75] 7,62 [3] 7,54 [2.97] 5,08 [2] 3,81 [1.50] 6,03 [2.38] K 37,15 [14.63] 9,53 [3.75] 10,16 [4] 7,62 [3] 5,72 [2.25] 5,24 [2.06] K, 48,26 [19] 12,70 [5] 15,24 [6] 12,70 [5] 7,62 [3] 2,54 [1] -100K K, -500K** 53,34 [21] 14,61 [5.75] 16,51 [6.50] 13,97 [5.50] 11,43 [4.50] 2,86 [1.13] For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD * Tolerance on shaft diameter ** Calibration performed to lb-in, consult factory for higher calibrations MS-3102E-14S-5P lb. L1 L2 L3 L4 U VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT Mating Connectors & Cables 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum For reference only N L R N P Load carrying capacity C Center of gravity to test unit P S W W - weight W x S - overhung moment S - distance to W Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust subject to change. Questions? Contact us at either , 317

32 SETUP TORQUE Model Series Reaction Socket Torque Sensor Combine the order code and the desired torque range lb-ft. For example: Range (lb-ft) 2133 Model reaction socket torque sensor Adaptable for portable usage No special adapter tools required Repeatable torque measurements Calibration reference for hard usage mechanical torque wrenches Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL 2133 Honeywell In-Line Amplifier Output Serial Number Input Display Units Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Performance Torque range Non-linearity Hysteresis Repeatability rated capacity Temperature, operating Temperature, compensated Temperature effect, zero Temperature effect, span Excitation (maximum) Insulation resistance Bridge resistance Zero balance Mounting dimensions and characteristics Model Capacity lb-ft A in Ø B in C in D Ø E in / / / / / / K A 10, 20, 50, 100, 250, 600, 1000 lb-ft ±0.25 % of rated output ±0.25 % of rated output ±0.1 % of rated output 2 mv/v nominal -54 C to 93 C [-65 F to 200 F] 21 C to 77 C [70 F to 170 F] ±0.002 % of rated output/ F ±0.002 % of reading/ F 10 Vdc or Vac RMS > Vdc 350 ohm (nominal) ±5 % or better of rated output C Ø E lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE Ø B D SQ. DRIVE Ø E UP DOWN ENTER EXIT For reference only 4 CONDUCTOR SHIELDED CABLE 318 Questions? Contact us at either , subject to change.

33 Model 2105 Low Capacity Reaction Torque Sensor Combine the order code and the desired torque range oz-in. For example: and range (oz-in) 2105 Model 2105 low capacity reaction torque sensor Reaction measurements designed to eliminate speed limitations Reduced friction error No maintenance of slip rings, bearings, or brushes Compact, low mass physical style Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Performance Torque range 50, 100, 200, 500, 1000 oz-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2.0 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity Nm [oz-in] Overload Nm [oz-in] Torsional stiffness Nm/rad [oz-in/rad] Max. overhung moment WxS Nm [oz-in] Max. shear W N [oz] Max. thrust P N [oz] [50] 0.53 [75] 91 [12900] 0.72 [100] [160] 89 [320] [100] 1.06 [150] 127 [18000] 1.08 [150] [240] 178 [640] [200] 2.25 [300] 364 [51500] 1.44 [200] 89 [320] 267 [960] [500] 5.30 [750] 674 [95500] 1.80 [250] 110 [400] 445 [1600] K 7.00 [1000] [1500] 1822 [258000] 2.88 [400] 133 [480] 667 [2400] Torsional stiffness given for sensor less shaft extension(s). subject to change. Questions? Contact us at either , 319

34 SETUP TORQUE Typical system diagram Load carrying capacity For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred For long cable runs or electrically noisy environments an amplifier close to sensor is often preferred Honeywell In-Line Amplifier Output Serial Number Input Power supply Customer supplied Chart recorder Alarm panel Data acquisition Computer PLC RTS S W C.G. OF TEST UNIT W - weight of test device W x S - overhung moment S - distance to center of gravity to test unit Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust OR lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE Mounting dimensions and characteristics UP DOWN ENTER EXIT Display units 7541 SC2001 GM SC500 SC3004 NK SC HH 7561-PSD In-line amplifiers (Used with unamplified units only) Amplifier Output Universal in-line amplifiers UV ± 5 Vdc UV-10 ± 10 Vdc UBP 0 ± 5 Vdc U3W 4 ma to 20 ma (3 wire) DIN rail mount in-line amplifiers DV-05 0 ± 5 Vdc (3 wire) DA-05 4 ma to 20 ma (3 wire) DV10 0 ± 10 Vdc (3 wire) For reference only Mating connectors & cables 023-LW Mating connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable for connection to instrument XX** Mating connector & 4 conductor cable for connection to instrument 7541 * XX represents length in feet 100 ft maximum ** XX represents length in feet 20 ft maximim 320 Questions? Contact us at either , subject to change.

35 Model 2102 Small Flanged Reaction Torque Sensor Combine the order code and the desired torque range lb-in. For example: and range (lb-in) 2102 Model 2102 small flanged reaction torque sensor Reaction measurements designed to eliminate speed limitations Reduced friction error No maintenance of slip rings, bearings, or brushes Compact, low mass physical style Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Performance Torque range 50, 100, 200, 500, 1000 lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2.5 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity Nm [lb-in] Overload Nm [lb-in] Torsional stiffness Nm/rad [lb-in/rad] Max. overhung moment WxS Nm [lb-in] Max. shear W N [lb] Max. thrust P N [lb] [50] 7.5 [75] 266 [2350] 5.50 [50] 5.90 [13] 886 [200] [100] 20 [150] 760 [6725] 11 [100] 9.09 [20] 1236 [280] [200] 30 [300] 2124 [18800] 22 [200] [26] 1760 [400] [500] 85 [750] 8315 [73600] [250] 227 [500] 2200 [500] K 115 [1000] 170 [1500] [127000] 56 [500] 364 [800] 2900 [660] Torsional stiffness given for sensor less shaft extension(s). subject to change. Questions? Contact us at either , 321

36 Output Input Serial Number SETUP TORQUE Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL 2102 Honeywell In-Line Amplifier Display Units Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Load carrying capacity S Mounting dimensions and characteristics W P W - weight W x S - overhung moment S - distance to W Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust A cm B cm C cm D cm E cm 7,62 [3] 6,03 [2.38] 5,08 [2] 4,130 [1.626] 0,36 [0.14] F cm G cm H K cm L cm 0,640 [0.252] 0,79 [0.31] 45 [45 ] 3,18 [1.25] 3,18 [1.25] K SQ. MS-3102E-14S-5P lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE E UP DOWN ENTER EXIT Mating Connectors & Cables 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) ØL bolt circle #10-24 UNC TAP N DEEP 4 HOLES EQUALLY SPACED AS SHOWN BOTH ENDS For reference only H 5/8" THRU ON 50,100 & 200 IN LBS. ONLY G F A B ØD PILOT ØC DIA. BOTH ENDS * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum 322 Questions? Contact us at either , subject to change.

37 Model Flanged Reaction Torque Sensor High torsional stiffness Higher resistance to bending moments Reduced friction error Low-end sensitivity due to absence of moving parts Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Combine the order code and the desired torque range lb-in. For example: K and range (lb-in) 2110 Model 2110 flanged reaction torque sensor, 2000 lb-in to 5000 lb-in 2111 Model 2111 flanged reaction torque sensor, lb-in to lb-in 2112 Model 2112 flanged reaction torque sensor, lb-in to lb-in 2113 Model 2113 flanged reaction torque sensor, lb-in 2114 Model 2114 flanged reaction torque sensor, lb-in to lb-in 2115 Model 2115 flanged reaction torque sensor, lb-in to lb-in 2116 Model 2116 flanged reaction torque sensor, lb-in to lb-in Performance Torque range 2000 lb-in to lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity Nm [lb-in] Overload Nm [lb-in] Torsional stiffness Nm/rad [lb-in/rad] Max. overhung moment WxS Nm [lb-in] Max. shear W N [lb] Max. thrust P N [lb] K 225 [2000] 340 [3000] [384000] 113 [1000] 6675 [1500] 8895 [2000] K 565 [5000] 845 [7500] [920000] 226 [2000] 8896 [2000] [3000] K 1130 [10000] 1690 [15000] [ ] 565 [5000] [4000] [6000] K 2250 [20000] 3380 [30000] [ ] 1130 [10000] [6500] [10000] K 3390 [30000] 5085 [45000] [ ] 1695 [15000] 3863 [8500] [13000] K 5650 [50000] 8475 [75000] [ ] 2704 [24000] [12000] [18000] K [100000] [150000] [ ] K [200000] [300000] [ ] K [300000] [450000] [ ] K* [500000] [750000] [ ] K* [600000] [900000] [ ] K* [750000] [ ] [ ] K* [ ] [ ] [ ] K* [ ] [ ] [ ] 5650 [50000] [20000] [30000] [90000] [30000] [40000] [150000] [42000] [60000] [200000] [55000] [80000] [200000] [95000] [90000] [250000] [110000] [105000] [350000] [140000] [130000] [700000] [225000] [210000] * Calibration performed to lb-in. Consult factory for higher calibrations. subject to change. Questions? Contact us at either , 323

38 Output Input Serial Number SETUP TORQUE Typical system diagram In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL Honeywell In-Line Amplifier Display Units Power Supply SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT Mounting dimensions and characteristics Model K, -5K K, -20K K, -100K C cm D cm F cm G* cm MS-3102E-145-5P H cm N cm J** cm 7,62 [3] 10,16 [4] 8,26 [3.25] 3,81 [1.50] 0,32 [0.13] 1,27 [0.50] 0,83 [0.33] 8,89 [3.50] 12,70 [5] 10,80 [4.25] 18,73 [7.38] K 21,59 [8.50] K, -500K**** K, -750K**** K, -2400K**** 26,67 [10.50] 26,67 [10.50] 20,32 [8] 16,51 [6.50] 24,77 [9.75] 5,08 [2.00] 0,64 [0.25] 1,91 [0.75] 0,99 [0.39] 8,89 [3.50] 0,79 [0.31] 3,81 [1.50] 1,63 [0.65] 20,32 [8] 10,16 [4] 0,79 [0.31] 3,81 [1.50] 1,94 [0.77] 35,63 [14] 27,94 [11] 15,24 [6] 0,79 [0.31] 5,08 [2] 2,59 [1.02] 38,10 [15] 30,48 [12] 15,24 [6] 0,79 [0.31] 5,08 [2] 3,85 [1.52] 40,64 [16] 50,80 [20] 40,64 [16] 20,32 [8] 1,27 [0.50] 5,08 [2] 3,86 [1.52]*** * Tolerance on shaft diameter ** Eight equally spaced holes are located within in of true position *** 16 equally spaced holes **** Calibration performed to lb-in max. Mating Connectors & Cables 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) ØG H N ØG ØD H N * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum C Load carrying capacity S W P W - weight W x S - overhung moment S - distance to W Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust ØJ For reference only ØF B.C. 324 Questions? Contact us at either , subject to change.

39 Model 2404 Hollow Reaction Torque Sensor Combine the order code and the desired torque range lb-in. For example: and range (lb-in) 2404 Model 2404 hollow reaction torque sensor, 50 lb-in to 5000 lb-in High torsional stiffness Higher resistance to bending moments Reduced friction error Low-end sensitivity due to absence of moving parts Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Performance Torque range 50, 100, 200, 500, 1K, 2K, 5K lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 1.5 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 700 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity Nm [lb-in] Overload Nm [lb-in] Torsional stiffness Nm/rad [lb-in/rad] Max. overhung moment WxS Nm [lb-in] Max. shear W N [lb] Max. thrust P N [lb] [50] 25 [250] 1920 [17000] 22 [200] 222 [50] 889 [200] [100] 30 [300] 4519 [40000] 34 [300] 445 [100] 1334 [300] [200] 55 [500] [100000] 44 [400] 667 [150] 1779 [400] [500] 85 [750] [250000] 77 [700] 1334 [300] 2668 [600] K 115 [1000] 170 [1500] [500000] 113 [1000] 1779 [400] 4448 [1000] K 225 [2000] 340 [3000] [ ] 226 [2000] 2224 [500] 6672 [1500] K 565 [5000] 850 [7500] [ ] 338 [3000] 2669 [600] [2500] subject to change. Questions? Contact us at either , 325

40 Output Input Serial Number SETUP TORQUE Typical system diagram Mounting dimensions and characteristics In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL 2404 Honeywell In-Line Amplifier Display Units SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD For reference only lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT Optional Calibration Arm Mating Connectors & Cables 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum Load carrying capacity S P W - weight W x S - overhung moment S - distance to W Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust W 326 Questions? Contact us at either , subject to change.

41 Model 2320 Hollow Reaction Torque Sensor Combine the order code and the desired torque range lb-in. For example: K and range (lb-in) 2320 Model 2320 flanged reaction torque sensor, lb-in to lb-in High torsional stiffness Higher resistance to bending moments Reduced friction error Low-end sensitivity due to absence of moving parts Safety considerations: It would be unsafe to operate Honeywell torque sensors and load cells beyond static overload or ultimate extraneous load limits as defined in the glossary of terms or, when applicable, higher than maximum speed. When in doubt, consult factory. Honeywell is not responsible for any property damage or personal injury which may result because of the misapplication of the transducer. Performance Torque range 12000, lb-in Non-linearity ±0.1 % of rated output Hysteresis ±0.1 % of rated output Repeatability ±0.05 % of rated output rated capacity 2 mv/v (nominal) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 350 ohm (nominal) Number of bridges 1 Zero balance ±1.0 % of rated output Mechanical Model Capacity Nm [lb-in] Overload Nm [lb-in] Torsional stiffness Nm/rad [lb-in/rad] Max. overhung moment WxS Nm [lb-in] Max. shear W N [lb] Max. thrust P N [lb] K 1350 [12000] 2030 [18000] [ ] 676 [6000] 6672 [1500] [6000] K 4050 [36000] 6085 [54000] [ ] 1694 [15000] [3000] [15000] subject to change. Questions? Contact us at either , 327

42 Output Input Serial Number SETUP TORQUE Typical system diagram Mounting dimensions and characteristics In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred Honeywell In-Line Amplifier Display Units For reference only Load carrying capacity MODEL 2320 SC500 SC1000 SC2000 SC2001 SC3004 GM NK HH PSD Mating Connectors & Cables lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) S W P W - weight W x S - overhung moment S - distance to W Do not exceed moment (W x S) or shear (W), whichever value is attained first P = thrust * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum 328 Questions? Contact us at either , subject to change.

43 Model 6459 and Torque Thrust Transducer Reduced crosstalk Extraneous load resistance Single piece construction Fatigue rated Low capacity Combine the order code and the desired torque range lb-in. For example: K 10K Torque range (lb-in) Thrust (lb) 6459 Model 6459 torque thrust transducer; 500 lb-in, 500 lb to 2000 lb-in, 2000 lb 6467 Model 6467 torque thrust transducer, 2500 lb-in, 5000 lb to 5000 lb-in, lb 6468 Model 6468 torque thrust transducer, lb-in, lb to lb-in, lb 6469 Model 6469 torque thrust transducer, lb-in, lb to lb-in, lb 6470 Model 6470 torque thrust transducer, lb-in, lb Performance Torque range 900, 5K, 25K, 50K, 100K lb-in Non-linearity ±0.15 % of rated output Hysteresis ±0.15 % of rated output Repeatability ±0.1 % of rated output rated capacity ±1.5 mv/v (nominal) (Both components) Temperature, operating -54 C to 93 C [-65 F to 200 F] Temperature, compensated 21 C to 77 C [70 F to 170 F] Temperature effect, zero ±0.002 %/of rated output F Temperature effect, output ±0.002 %/of reading F Excitation (maximum) 20 Vdc or Vac RMS Insulation resistance > Vdc Bridge resistance 700 ohm (nominal) Zero balance ±1 % of rated output Static overload capacity 150 % of rated capacity subject to change. Questions? Contact us at either , 329

44 Output Input Serial Number Output Input Serial Number SETUP TORQUE Typical system diagram Mounting dimensions and characteristics In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Honeywell In-Line Amplifier Power Supply For reference only Mounting dimensions and characteristics In-Line Amplifiers (Used with unamplified units only) Amplifier Output Universal In-Line Amplifiers UV +/-5 VDC UV-10 +/-10 VDC UBP 0 +/-5 VDC U3W 4-20mA (3 wire) U2W 4-20mA (2 wire) DIN rail Mount In-Line Amplifiers DV /- 5 VDC (3 wire) DA mA (3 wire) DV10 0 +/- 10 VDC (3 wire) Honeywell In-Line Amplifier Customer Supplied Chart Recorder Alarm Panel Data Acquisition Computer PLC Power Supply For reference only Mounting dimensions and characteristics For long cable runs or electrically noisy environments an amplified sensor or locally mounted amplifier is often preferred MODEL For reference only NOTE: There are two connectors on the transducer. They both need a cable and an amp. Display Units SC1000 SC2000 SC2001 SC Mounting dimensions and characteristics lb. L1 L2 L3 L4 VALUE CLEAR CHAN TARE UP DOWN ENTER EXIT Mating Connectors & Cables 064-LW13621 Mating Connector XX* Mating connector & 6 conductor cable (unamplified unit with sense leads but not shunt cal) XX** Mating connector & 4 conductor cable (unamplified unit without sense leads but not shunt cal) XX* Mating connector & 6 conductor cable (for connection to instrument 7541) XX** Mating connector & 4 conductor cable (for connection to instrument 7541) For reference only Mounting dimensions and characteristics * XX represents length in feet 100ft maximum ** XX represents length in feet 20ft maximum For reference only 330 Questions? Contact us at either , subject to change.

45 Model QSFK-9 Shaft Type Reaction Torque Transducer Combine the order code, range code, and option codes. For example: BT111 TT 1b BT111 Range code Option code Model QSFK-9 shaft type reaction torque transducer Range codes Wide dynamic range High frequency Stainless steel Range code TJ TL TN TP TR TT TV TW Range 100 in-lb 300 in-lb 600 in-lb 1200 in-lb 3000 in-lb 6000 in-lb in-lb in-lb Performance Range 100 in-lb to in-lb System accuracy ±0.1 % full scale Linearity ±0.1 % full scale Hysteresis ±0.1 % full scale Non-repeatability ±0.03 % full scale Output 2 mv/v nominal Resolution Infinite Temperature, operating -54 C to 107 C [-65 F to 225 F] Temperature, compensated 16 C to 71 C [60 F to 160 F] Temperature effect, zero % full scale/ F Temperature effect, span % reading/ F Strain gage type Bonded foil Excitation 10 Vdc Bridge resistance 350 ohm termination MS3102A-14S-6P or equivalent Mating connector MS3106A-14S-6S or equivalent (not included) Mechanical Static overload capacity 50 % over capacity Case material Stainless steel subject to change. Questions? Contact us at either , 331

46 Option codes Typical system diagram Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Torque range Temperature compensation Internal amplifiers termination Interfaces 100, 300, 600, 1200, 3000, 6000, 12000, in-lb 1a. 16 C to 71 C [60 F to 160 F] 1b. -1 C to 54 C [30 F to 130 F] 1c. -18 C to 85 C [0 F to 185 F] 1d. -29 C to 54 C [-20 F to 130 F] 1e. -29 C to 93 C [-20 F to 200 F] 1f. 21 C to 121 C [70 F to 250 F] 2u. Unamplified, mv/v output 6a. Bendix PTIH-10-6P - 6-pin (max. 121 C [250 F]) 6b. MS connector MS3102E-14S-6P (mates with MS3106E-14S-6S, max 160 F) 6e. Integral cable: Teflon 6f. Integral cable: PVC 6g. Integral cable: Neoprene 6h. Integral cable: Silicone 53e. Signature calibration 53t. T.E.D.S. IEEE module Mounting dimensions and characteristics Range (in-lb) ØD1 mm mm [0.75 in] 600, ,4 mm [1.00 in] 3000, 6000, ,1 mm [1.50 in] ,85 mm [2.75 in] ØD2 mm 57,15 mm [2.25 in] 57,15 mm [2.25 in] 88,9 mm [3.50 in] 101,6 mm [4.00 in] K key size 3/16 69,85 mm [2.75 in] 1/4 69,85 mm [2.75 in] 3/8 95,25 mm [3.75 in] 5/8 129,54 mm [5.10 in] A mm B mm L mm 57,15 mm [2.25 in] 57,15 mm [2.25 in] 76,2 mm [3.00 in] 101,6 mm [4.00 in] 203,2 mm [8.00 in] 203,2 mm [8.00 in] 279,4 mm [11.00 in] 330,2 mm [13.00 in] For reference only 332 Questions? Contact us at either , subject to change.

47 Model QWFK-8M Miniature Reaction Torque Transducer Combine the order code, range code, and option codes. For example: BT311 TL 1b BT311 Range code Option code Model QWFK-8M miniature reaction torque transducer Range codes Compact size High frequency 0.1 % linearity Range code TB TD TF TH TJ TL Range 25 in-oz 100 in-oz 250 in-oz 50 in-lb 100 in-lb 300 in-lb Performance Range System accuracy Linearity Hysteresis Non-repeatability Output Resolution Temperature, operating Temperature, compensated Temperature effect, zero Temperature effect, span Strain gage type Excitation Bridge resistance termination Mechanical Static overload capacity Case material Deflection torsional, 25 in-oz to 50 in-lb Deflection torsional, 100 in-lb to 300 in-lb 25, 100, 250 in-oz; 50, 100, 300 in-lb ±0.1 % full scale ±0.1 % full scale ±0.1 % full scale ±0.03 % full scale 2 mv/v nominal Infinite -54 C to 107 C [-65 F to 225 F] 16 C to 71 C [60 F to 160 F] % full scale/ F % reading/ F Bonded foil 10 Vdc (5 Vdc if torque range <100 in-oz) 350 ohm Teflon cable (1.5 m [5 ft]) 50 % over capacity Stainless steel radians radians subject to change. Questions? Contact us at either , 333

48 Option codes Typical system diagram Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Torque range Temperature compensation Internal amplifiers termination Interfaces 25, 100, 250 in-oz; 50, 100, 300 in-lb 1a. 16 C to 71 C [60 F to 160 F] 1b. -1 C to 54 C [30 F to 130 F] 1c. -18 C to 85 C [0 F to 185 F] 1d. -29 C to 54 C [-20 F to 130 F] 1e. -29 C to 93 C [-20 F to 200 F] 1f. 21 C to 121 C [70 F to 250 F] 2u. Unamplified, mv/v output 6e. Integral cable: Teflon 53e. Signature calibration 53t. T.E.D.S. IEEE module Mounting dimensions and characteristics For reference only 334 Questions? Contact us at either , subject to change.

49 Model QWLC-8M Miniature Reaction Torque Transducer Combine the order code, range code, and option codes. For example: BT312 TL 1b BT312 Range code Option code Model QWLC-8M miniature reaction torque transducer Range codes Compact size High frequency 0.1 % linearity Range code TB TD TF TH TJ TL Range 25 in-oz 100 in-oz 250 in-oz 50 in-lb 100 in-lb 300 in-lb Performance Range 25, 100, 250 in-oz; 50, 100, 300 in-lb System accuracy ±0.1 % full scale Linearity ±0.1 % full scale Hysteresis ±0.1 % full scale Non-repeatability ±0.03 % full scale Output 2 mv/v nominal Resolution Infinite Temperature, operating -54 C to 107 C [-65 F to 225 F] Temperature, compensated 16 C to 71 C [60 F to 160 F] Temperature effect, zero % full scale/ F Temperature effect, span % reading/ F Strain gage type Bonded foil Excitation 10 Vdc (5 Vdc if torque range <= 100 in-oz) Bridge resistance 350 ohm termination Teflon cable (1.5 m [5 ft]) Mechanical Static overload capacity 50 % over capacity Case material Stainless steel Defl. torsional, 25 in-oz to 50 in-lb radians Deflection torsional, 100 to 300 in-lb radians subject to change. Questions? Contact us at either , 335

50 Option codes Typical system diagram Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Torque range Temperature compensation Internal amplifiers termination Interfaces 25, 100, 250 in-oz; 50, 100, 300 in-lb 1a. 16 C to 71 C [60 F to 160 F] 1b. -1 C to 54 C [30 F to 130 F] 1c. -18 C to 85 C [0 F to 185 F] 1d. -29 C to 54 C [-20 F to 130 F] 1e. -29 C to 93 C [-20 F to 200 F] 1f. 21 C to 121 C [70 F to 250 F] 2u. Unamplified, mv/v output 6e. Integral cable: Teflon 53e. Signature calibration 53t. T.E.D.S. IEEE module Mounting dimensions and characteristics For reference only 336 Questions? Contact us at either , subject to change.

51 Model QFFH-9 Flange Type Reaction Torque Transducer Combine the order code, range code, and option codes. For example: BT121 TT 1b BT121 Range code Option code Model QFFH-9 flange type reaction torque transducer Range codes Wide dynamic range High frequency Stainless steel Range code TR TT TV TW Range 3000 in-lb 6000 in-lb in-lb in-lb Performance Range 3000; 6000; 12000; in.-lb System accuracy ±0.1 % full scale Linearity ±0.1 % full scale Hysteresis ±0.1 % full scale Non-repeatability ±0.03 % full scale Output 2 mv/v nominal Resolution Infinite Temperature, operating -54 C to 107 C [-65 F to 225 F] Temperature, compensated 16 C to 71 C [60 F to 160 F] Temperature effect, zero % full scale/ F Temperature effect, span % reading/ F Strain gage type Bonded foil Excitation 10 Vdc Bridge resistance 350 ohm termination Bendix PTIH-10-6P or equivalent Mating connector PT06A-10-6S or equivalent (not included) Mechanical Static overload capacity 50 % over capacity Case material Stainless steel subject to change. Questions? Contact us at either , 337

52 Option codes Typical system diagram Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Torque range Temperature compensation Internal amplifiers termination Interfaces 3000, 6000, 12000, in-lb 1a. 16 C to 71 C [60 F to 160 F] 1b. -1 C to 54 C [30 F to 130 F] 1c. -18 C to 85 C [0 F to 185 F] 1d. -29 C to 54 C [-20 F to 130 F] 1e. -29 C to 93 C [-20 F to 200 F] 1f. 21 C to 121 C [70 F to 250 F] 2u. Unamplified, mv/v output 6a. Bendix PTIH-10-6P, 6-pin (max. 121 C [250 F]) 6b. MS connector MS3102E-14S-6P (mates wit MS3106E-14S-6S, max. 160 F) 6e. Integral cable: Teflon 6f. Integral cable: PVC 6g. Integral cable: Neoprene 6h. Integral cable: Silicone 53e. Signature calibration 53t. T.E.D.S. IEEE module Mounting dimensions and characteristics Range (in-lb) ØD1 mm 3000, ,6 mm [4.00 in] 12000, mm [5.00 in] W mm A mm C mm dia. B.C. 76,2 mm [3.00 in] 88,9 mm [3.50 in] 12,7 mm [0.50 in] 19,05 mm [0.75 in] 82,55 mm [3.25 in] 107,95 mm [4.25 in] E mm dia. Thru 8,38 mm [0.33 in] 9,9 mm [0.39 in] For reference only 338 Questions? Contact us at either , subject to change.

53 366 Low Range Torque Watch Gauge Series The code consists of the product order code. For example: TQ366 Model/order codes See table below The 366 low range torque watch gage series accurately measures very low torque. Three miniature adapter chucks allow simple coupling to the device being measured. To minimize friction, a calibrated spring, shaft, and pointer assembly are mounted in jeweled bearings. The unit can measure torque in either a clockwise or counterclockwise direction. A stainless steel internal rotation stop helps prevent damage from over-torque up to three times the normal range in-oz to 0.6 in-oz 0.2 gm-cm to 42 gm-cm Standard Metric Model oz-in Model gm-cm Accuracy TQ to M TQ3660M 6 to 42 ±5 % TQ to M TQ3662M 1 to 7.5 ±10 % TQ to M TQ3663M 0.2 to 2 ±10 % subject to change. Questions? Contact us at either , 339

54 651 Mid Range Torque Watch Gauge Series The code consists of the product order code. For example: TQ651 See table below The 651 mid-range torque watch gage series provides accurate measurement of low static torque. A 1/4 inch keyed chuck provides a simple means of coupling to the device under measurement in-oz to 40 in-oz 2.5 gm-cm to 2.8 k gm-cm 0.5 N-mm to 265 N-mm The 651 Series utilizes a calibrated spring, shaft, and pointer assembly within a rugged steel and aluminum housing. The unit can measure torque in either a clockwise or counterclockwise direction. Internal stainless steel rotation stops help prevent damage from over-torque up to two times the normal range. Model/order codes Standard Metric System International Model oz-in Model gm-cm Model N-mm Accuracy 651C-1 TQ651C to C-1M TQ651C1M C-1SI TQ651C1SI 0.5 to 9 ±2 % 651C-2 TQ651C2 1 to C-2M TQ651C2M k 651C-2SI TQ651C2SI 10 to 140 ±2 % 651C-3 TQ651C3 2 to C-3M TQ651C3M k 651C-3SI TQ651C3SI 15 to 285 ±2 % 651X-2 TQ651X2 0.1 to X-2M TQ651X2M X-2SI TQ651X2SI 1 to 18 ±2 % 651X-3 TQ651X to 5 651X-3M TQ651X3M X-3SI TQ651X3SI 2 to 36 ±2 % 651X-4 TQ651X4 0.5 to X-4M TQ651X4M X-4SI TQ651X4SI 5 to 70 ±2 % 340 Questions? Contact us at either , subject to change.

55 940 High Range Torque Watch Gauge Series The code consists of the product order code. For example: TQ940 See table below The 940 high-range torque watch gage series accurately measures high range torque. A 3/8 inch keyed chuck and a 3/8 inch square socket driver adaptor provides a simple means of coupling to the device under measurement. 15 in-oz to 200 in-oz 2.5 gm-cm to 2.8 k gm-cm 0.1 Nm to 1.4 Nm The 940 Series utilizes a calibrated spring, shaft, and pointer assembly within a rugged steel and aluminum housing. The unit can measure torque in either a clockwise or counterclockwise direction. Internal stainless steel rotation stops help prevent damage from over-torque up to two times the normal range. Model/order codes Standard Metric System International Model Order codes oz-in Model Order codes Kgm-cm Model Order codes TQ to M TQ9401M 2 to SI TQ9401SI 0.25 to 1.4 ±2 % TQ to M TQ9402M 1 to SI TQ9402SI 0.1 to 0.7 ±2 % N-m Accuracy subject to change. Questions? Contact us at either , 341

56 Model 9300 Clampon Rotary Torque Transducer System Ideal for short-term testing Converts shaft into a torque transducer Shaft sizes from 63,5 [2.5 in] to 391,16 [15.4 in] Notes 1. Consult factory for other cable lengths. 2. Consult factory for higher RPM speeds. Combine the order code, range code, and option codes. For example: BT h BT213 Range (lb-in) Option code Model 9300 clamp-on rotary torque transducer system Performance Torque range Varies on application; consult factory Linearity ±0.15 % full scale Non-repeatability ±0.05 % full scale Frequency response dc to 1000 Hz Sensitivity (transmitter) 300 microstrain Number of channels 1 Sampling rate 5 khz Receiver readout display type 3.5 digit 7 segment LED Temperature, operating (transmitter) -9 C to 75 C [16 F to 167 F] Temperature, operating (receiver/ips/psu) 4 C to 60 C [40 F to 140 F] Temperature, compensated (transmitter) 0 C to 75 C [32 F to 167 F] Temperature, compensated (receiver) 0 C to 53 C [32 F to 127 F] Temperature effects, zero (max.) ±0.01 % full scale Temperature effects, span (max.) ±0.005 % full scale Static G force (rotating components) 100 G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 10 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not including cables) Receiver and IPS 3,4 kg [7.5 lb] Induction power source 160 khz ±6 % Cable length (IPS to receiver) 4,6 m [15 ft] 1 Max. cable length (IPS to receiver) 30,48 m [100 ft] Power supply voltage (receiver) 120/240 Vac user-selectable Power consumption (receiver) 200 VA max. RF operating frequency Factory set, 16 MHz standard RF modulation type PWM Signal strength indicator (receiver) LED bar graph Analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 Ohm termination (receiver output) BNC female Mating connector (receiver output) BNC male Analog output filter cap. (receiver) User selectable 1000 Hz; 500 Hz; 200 Hz; 100 Hz; 1 Hz Mechanical Dimensions (collar cross section) Varies with shaft diameter Dimensions (receiver) (L x W x H) 292,1 mm x 218,44 mm x 88,9 mm [11.5 in x 8.6 in x 3.5 in] Dimensions (IPS) (L x W x H) 152,4 mm x 101,6 mm x 63,5 mm [6 in x 4 in x 2.5 in] Rotational clearance (collar) 63,5 mm [2.5 in] all around Shaft diameter limits (collar) 63,5 mm to 391,16 mm [2.5 in to 15.4 in] Collar material Phenolic, steel 342 Questions? Contact us at either , subject to change.

57 Option codes RPM limits graph 2 Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Torque range Available frequencies protection Receiver power supply Varies on application; consult factory 16 MHz 62h. NEMA IPS 62v. dc (specify 12 Vdc or 24 Vdc) Mounting dimensions and characteristics Shaft diameter Sensor radius Antenna diameter Collar diameter D S mm (ID) D S mm (OD) R mm D A mm D C mm 63,5 [2.5] 87,37 [3.44] 60,96 [2.4] 177,8 [7.00] 149,35 [5.88] 87,37 [3.44] 112,77 [4.44] 73,66 [2.9] 203,2 [8.00] 174,75 [6.88] 112,77 [4.44] 138,17 [5.44] 86,36 [3.4] 228,6 [9.00] 200,15 [7.88] 138,17 [5.44] 163,57 [6.44] 99,06 [3.9] 254 [10.00] 225,55 [8.88] 163,57 [6.44] 188,97 [7.44] 111,76 [4.4] 279,4 [11.00] 250,95 [9.88] 188,97 [7.44] 214,37 [8.44] 124,46 [4.9] 304,8 [12.00] 276,35 [10.88] 214,37 [8.44] 239,77 [9.44] 137,16 [5.4] 330,2 [13.00] 301,75 [11.88] 239,77 [9.44] 265,17 [10.44] 149,86 [5.9] 355,6 [14.00] 327,15 [12.88] 265,17 [10.44] 290,57 [11.44] 162,56 [6.4] 381 [15.00] 352,55 [13.88] 290,57 [11.44] 315,97 [12.44] 175,26 [6.9] 406,4 [16.00] 377,92 [14.88] 315,97 [12.44] 341,37 [13.44] 187,96 [7.4] 431,8 [17.00] 403,35 [15.88] 341,37 [13.44] 366,77 [14.44] 200,66 [7.9] 457,2 [18.00] [16.88] 366,77 [14.44] 392,17 [15.44] 213,36 [8.4] 482,6 [19.00] 454,15 [17.88] Typical system diagram Electronics completion package: Part # 060-G includes Model 2145 ac receiver, Model 2175A induction power supply, 15 feet coaxial cable, and operating manual. For reference only subject to change. Questions? Contact us at either , 343

58 Model 1602A/ 1602A-01* Propulsion Monitoring System Combine the order code and option codes. For example: WM c WM1000 (1602A) WM1100 (1602A-01) Options code Model 1602A propulsion monitoring systems Model 1602A-01 propulsion monitoring systems Cost effective Enhanced stability Shaft sizes from 381 mm to 762 mm [15 in to 30 in] Notes 1. Other frequencies available. Consult factory. 2. Other collar materials available. Consult factory. * 1602A and 1602A-01 are identical except that 1602A-01 is for torque measurement only. The 1602A propulsion monitoring system fits shafts sized from 381 mm to 762 mm [15 in to 30 in] in diameter. The system is enclosed in a strong outer cover and has an electronics readout assembly in a water tight enclosure. These units together provide the means for measuring shaft torque and RPM. Digital readouts are available to display torque, RPM and computed horsepower. Built-in calibration check circuitry can be activated at any time to verify that all local displays and outputs are functional. Enhanced stability and reduced maintenance are the payback for selecting this system. The model 1602A/01 systems can be used in a variety of potential applications including fuel conservation programs, hull and propeller fouling, load and balancing on twin screw vessels, power plant monitors and sea trial torsion meters. Performance Torque ranges Varies on application; consult factory Frequency response dc to 1000 Hz Sensitivity (transmitter) 300 microstrain Number of channels 1 to 3 (Torque, RPM, HP) Sampling rate 5 khz Receiver readout display type 3.5 digit 7 segment LED Temperature, operating (transmitter) -15 C to 75 C [5 F to 167 F] Temperature, operating (receiver/ips/psu) 10 C to 50 C [50 F to 122 F] Temperature, compensated (transmitter) 5 C to 60 C [40 F to 140 F] Temperature, compensated (receiver) 10 C to 50 C [50 F to 122 F] Static G force (rotating components) 100 G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 10 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not including cables) Receiver and PTU 14,69 kg [33 lb] Induction power source 160 khz ±6 % Cable length (PTU to receiver) Cables NOT included Max. cable length (PTU to receiver) 100 ft Power supply voltage (receiver) 115 Vac to 230 Vac (user-selectable) Power consumption (receiver) 100 VA max. RF operating frequency 16 MHz RF modulation type FSK Max. analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 Ohm termination (receiver output) Screw terminal Mechanical Dimensions (collar cross section) Varies with shaft diameter Dimensions (receiver) (L x W x H) 406,4 mm x 508 mm x 254 mm [16 in x 20 in x 10 in] Dimensions (PSU) Not applicable (built into shield assembly) Rotational clearance (collar) Varies with shaft diameter Shaft diameter limits (collar) 381 mm to 762 mm [15 in to 30 in] Collar material Zinc-plated steel 344 Questions? Contact us at either , subject to change.

59 Option codes RPM limits graph Totalizer RF operating frequency Display (receiver) Analog output (receiver) Filter (receiver) Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. 62a. Horsepower-hour totalizer 62b. Revolutions totalizer 16 MHz 1 62c. Remote display 62e. 1 Channel 4 ma to 20 ma isolated output 62f. 2 Channel 4 ma to 20 ma isolated output 62d. EMI filter for analog outputs Collar material Zinc-plated steel 2 Shock and vibration 62g. Heavy duty shield and receiver Typical system diagram subject to change. Questions? Contact us at either , 345

60 Model 1603A/ 1603A-01* Propulsion Monitoring System (without cover) Enhanced stability Enables installation in tight spaces Shaft sizes from 63,5 mm to 391 mm [2.5 in to 15.4 in] Notes 1. Other frequencies available. Consult factory. *1603A and 1603A-01 are identical except that 1603A-01 is for torque measurement only. Combine the order code and option codes. For example: WM c Option code WM1200 (1603A) Model 1603A propulsion monitoring system (without cover) WM1300 (1603A-01) Model 1603A-01* propulsion monitoring system (without cover) The model 1603A and 1603A-01 power measurement system is identical to the model 1602A system except for the elimination of the cover over the shaft sensor unit which enables installation in tight spaces such as under existing covers or deck plates. The system fits shaft sizes from 63,5 mm to 391 mm [2.5 in to 15.4 in] in diameter. The system has an electronics readout assembly in a water tight enclosure. These units together provide means for measuring shaft torque and RPM. Digital readouts are available to display torque, RPM and computed horsepower. Built-in calibration check circuitry can be activated at any time to verify that all local displays and outputs are functional. Enhanced stability and reduced maintenance are the payback for selecting this system. The model 1603A and 1603A-01 systems can be used in a variety of potential applications including fuel conservation programs, hull and propeller fouling, power plant monitors and sea trial torsion meters. Performance Torque range Varies on application; consult factory Frequency response dc to 1000 Hz Sensitivity (transmitter) 300 microstrain Number of channels 1 to 3 (Torque, RPM, HP) Sampling rate 5 khz Receiver readout display type 3.5 digit 7 segment red LED Temperature, operating (transmitter) -15 C to 75 C [5 F to 167 F] Temperature, operating (receiver/ips/psu) 10 C to 50 C [50 F to 122 F] Temperature, compensated (transmitter) 5 C to 60 C [40 F to 140 F] Temperature, compensated (receiver) 10 C to 50 C [50 F to 122 F] Static G force (rotating components) 100 G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 10 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not including cables) Receiver and PSU 14,69 kg [33 lb] Induction power source 160 khz ±6 % Cable length (PSU to receiver) Cables NOT included Max. cable length (PSU to receiver) 100 ft Power supply voltage (receiver) 115 Vac/230 Vac (user-selectable) Power consumption (receiver) 100 VA max. RF operating frequency 16 MHz RF modulation type FSK Max. analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 Ohm termination (receiver output) Screw terminal Mechanical Dimensions (collar cross section) Varies with shaft diameter Dimensions (receiver) (L x W x H) 406,4 mm x 508 mm x 254 mm [16 in x 20 in x 10 in] Dimensions (PSU) (L x W x H) 152,4 mm x 101,6 mm x 50,8 mm [6 in x 4 in x 2 in] Rotational clearance (collar) 63,5 mm [2.5 in] all around Shaft diameter limits (collar) 63,5 mm to 391 mm [2.5 in to 15.4 in] Collar material Phenolic/steel 346 Questions? Contact us at either , subject to change.

61 Option codes RPM limits graph Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Totalizer RF operating frequency Display (receiver) Analog output (receiver) Filter (receiver) RPM sensor System material Shock & vibration 62a. Horsepower-hour totalizer 62b. Revolutions totalizer 16 MHz 1 62c. Remote display 62e. 1 Channel 4 ma to 20 ma isolated output 62f. 2 Channel 4 ma to 20 ma isolated output 62d. EMI filter for analog outputs 62m. Optical 62l. Magnetic 62k. Non-magnetic 62g. Heavy duty shield and receiver subject to change. Questions? Contact us at either , 347

62 Model 1605A Horsepower Monitoring System Combine the order code and option codes. For example: WM c WM1400 Option code Model 1605A horsepower monitoring system Enhanced stability Readout can handle all diesel and turbine power plants Shaft sizes from 381 mm to 762 mm [15 in to 30 in] The model 1605B universal power and torque measurement system consists of bolt-on shaft sensor units for shafts between 381 mm and 762 mm [15 in and 30 in], which can handle most diesel and turbine power plants. Most ranges of RPM and power are accommodated with large over range capability. The data band width is dc to 1000 Hz, allowing for torsional vibration measurement without a second monitoring system. Notes 1. Other frequencies available. Consult factory. Performance Torque range Varies on application; consult factory Frequency response dc to 1000 Hz Sensitivity (transmitter) 300 microstrain Number of channels 1 to 3 (Torque, RPM, HP) Sampling rate 5 khz Receiver readout display type 3.5 digit 7 segment red LED Temperature, operating (transmitter) -15 C to 75 C [5 F to 167 F] Temperature, oper. (receiver/ips/psu) 10 C to 50 C [50 F to 122 F] Temperature, comp. (transmitter) 5 C to 60 C [40 F to 140 F] Temperature, comp. (receiver) 10 C to 50 C [50 F to 122 F] Static G force (rotating components) 100 G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 10 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not incl. cables) Receiver and PSU 14,96 kg [33 lb] Induction power source 160 khz ±6 % Cable length (PTU to receiver) Cables NOT included Max. cable length (PTU to receiver) 100 ft Power supply voltage (receiver) 115 Vac/230 Vac (user-selectable) Power consumption (receiver) 100 VA max. RF operating frequency 16 MHz RF modulation type FSK Analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 Ohm termination (receiver output) BNC female Mating connector (receiver output) BNC male Mechanical Dimensions (collar cross section) Varies with shaft diameter Dimensions (receiver) (L x W x H) 431,8 mm x 457,2 mm x 133,35 mm [17 in x 18 in x 5.25 in] Dimensions (PSU) (L x W x H) 152,4 mm x 101,6 mm x 50,8 mm [6 in x 4 in x 2 in] Rotational clearance (collar) Varies with shaft diameter Shaft diameter limits (collar) 381 mm to 762 mm [15 in to 30 in] Collar material Zinc-plated steel 348 Questions? Contact us at either , subject to change.

63 Option codes Typical system diagram Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. RF operating frequency Display (receiver) Collar material Shock & vibration (PSU) Analog output RPM sensor 16 MHz 1 62c. Remote display Zinc-plated steel 62j. Vibration/shock rated PSU ±10 1 ma max. 62e. 4 ma to 20 ma isolated output Optical RPM-multireading RPM limits graph subject to change. Questions? Contact us at either , 349

64 Model 2101 to 2106 Rotary Measurement System, 1 to 6 Channel System Quick short-term installation 1 to 6 channels wireless telemetry Clamp-on collar machined to fit each application The 2100 series rotary torque measurement systems are often well suited for both short and long term testing and monitoring of torque or strain on rotating applications where other measurement methods are affected by vibration, dust, moisture, high RPMs, and large axial/radial shaft movements. The custom machined collar assembly, stationary loop antenna, induced power supply (IPS), and receiver are pre-tested as a set at the factory, enabling quick installation and setup of the system for the user. The collar has a pre-assembled antenna, embedded transmitter with pins for connecting to strain gauges and high-strength bolts to clamp on just about any type of shaft. The transmitter is powered by an ac voltage coupled from the stationary loop antenna to the antenna built into the collar. The transmitter provides a regulated excitation to the strain gauges and converts the resulting low-voltage signal from the strain gage to a radio frequency (RF) signal. This RF signal is sent back to the receiver unit through the stationary antenna loop and IPS. The receiver converts the RF signal to a bipolar dc voltage that is proportional to the amount of torque or strain. This voltage is accessible via a BNC connector on the receiver so the user can interface to a chart recorder or data acquisition system. A scalable analog output and numeric display readout on the receiver provides an electrical and visual indication of the measurement. The receiver provides controls for gain and zero adjustments, display scaling, and IPS power setting. A combination of up to six transmitters and receivers operating on different frequencies will provide up to six points of measurement on the same shaft. Please contact the factory if more than six points of measurement are required. Because the 2100 series systems are designed for a variety of rotating applications, strain gauges are not included with the system. However, Honeywell will custom gage your shaft or rotating component (e.g. turbine blade) to provide a complete pre-calibrated rotary measurement system. Please contact your Honeywell sales representative for further details. Combine the order code and option codes. For example: WN s Option code Number of channels Electronics weight WN Receiver and IPS 3,4 kg [7.5 lb] WN Receiver and IPS 6,4 kg [14 lb] WN Receiver and IPS 9 kg [20 lb] WN Receiver and IPS 11,8 kg [26 lb] WN Receiver and IPS 14,5 kg [32 lb] WN Receiver and IPS 17,2 kg [38 lb] Performance Frequency response dc to 1000 Hz Sensitivity (transmitter) 175 microstrain (0.5 mv/v) Number of channels See order codes Sampling rate 10 khz Receiver readout display type 3.5 digit 7 segment LED Temperature, operating (transmitter) -55 C to 125 C [-67 F to 257 F] Temperature, operating (receiver/ips) -15 C to 65 C [5 F to 149 F] Temperature, compensated (transmitter) 0 C to 75 C [32 F to 167 F] Temperature, compensated (receiver) 0 C to 53 C [32 F to 127 F] Static G force (rotating components) G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 100 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not including cables) See order codes table above Induction power source 160 khz ±6 % Cable length (IPS to receiver) 4,57 m [15 ft] std 1 Max. cable length (IPS to receiver) 30,48 m [100 ft] Power supply voltage (receiver) 120/240 Vac user-selectable Power consumption (receiver) 200 VA max. RF operating frequency Factory set, 13 MHz to 22 MHz, 1 MHz steps RF modulation type PWM Signal strength indicator (receiver) LED bar graph Analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 ohm termination (receiver output) BNC female Mating connector (receiver output) BNC male termination (transmitter) 9 pins, 0,64 mm [0.025 in] diameter pins Output filter capability (receiver) User selectable 1000, 500, 200, 100, 1 Hz Mechanical Dimensions (collar cross section) 31,75 mm x 31,75 mm [1.25 in x 1.25 in] typical (152,4 mm [6 in] OD min.) Dimensions (receiver) (L x W x H) 292,1 mm x 218,44 mm x 88,9 mm [11.5 in x 8.6 in x 3.5 in] Dimensions (IPS) (L x W x H) 152,4 mm x 101,6 mm x 63,5 mm [6 in x 4 in x 2.5 in] Shaft diameter limits (collar) 50,8 mm to 1066,8 mm [2 in to 42 in] Collar material Type G-11 glass epoxy Notes 1. Consult factory for other cable lengths. 350 Questions? Contact us at either , subject to change.

65 Option codes RPM limits graph Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Compensated transmitter temperature protections Receiver power supply Voltage pin access 62s. 100 C [212 F] 62h. NEMA IPS 62v. dc (specify 12 Vdc or 24 Vdc) 62t. Unregulated voltage (no tie pin) Selection guide Typical system diagram subject to change. Questions? Contact us at either , 351

66 Model 1202B Rotary Torque/RPM/HP Measurement System dc to 1000 Hz frequency response 1 to 3 channels wireless telemetry 175 microstrain (0.5 mv/v) transmitter sensitivity Notes 1. 4,6 m [15 ft] is the standard cable length, other lengths are available. Consult factory. 2. Consult factory for other frequencies ,8 mm to 203,2 mm [2 in to 8 in] is standard shaft diameter, consult factory for other shaft diameters. Combine the order code and the option codes. For example: WI c WI1000 Option code Model 1202B rotary torque/rpm/hp measurement system Performance Frequency response dc to 1000 Hz Sensitivity (transmitter) 175 microstrain (0.5 mv/v) Number of channels 1 to 3 Sampling rate 10 khz Receiver readout display type 3.5 digit 7 segment LED Temperature, operating (transmitter) -55 C to 125 C [-67 F to 257 F] Temperature, op. (receiver/ips/psu) 10 C to 50 C [50 F to 122 F] Temperature, comp. (transmitter) 0 C to 75 C [32 F to 167 F] Temperature, compensated (receiver) 10 C to 50 C [50 F to 122 F] Static G force (rotating components) G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 100 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not incl. cables) Receiver and PSU 15 kg [33 lb] Induction power source 160 khz ±6 % Cable length (PSU to receiver) 4,6 m [15 ft] standard 1 Max. cable length (PSU to receiver) 152,4 m [500 ft] Power supply voltage (receiver) 115/230 Vac user-selectable Power consumption (receiver) 100 VA max. RF operating frequency 10.7 MHz 2 RF modulation type FSK Max. analog output (receiver) ±10 1 ma max. Output impedance (receiver) < 1 ohm termination (receiver output) Screw terminal termination (transmitter) 9 pins, 0,64 mm [0.025 in] diameter Mechanical Dimensions (collar cross section) 31,8 mm x 31,8 mm [1.25 in x 1.25 in] typical (152,4 mm [6 in] OD min.) Dimensions (receiver) (L x W x H) 406,4 mm x 508 mm x 254 mm [16 in x 20 in x 10 in] Dimensions (IPS) (L x W x H) 152,4 mm x 101,6 mm x 50,8 mm [6 in x 4 in x 2 in] Shaft diameter limits (collar) 50,8 mm to 1066,8 mm [2 in to 42 in] 3 Collar material Type G-11 glass epoxy 352 Questions? Contact us at either , subject to change.

67 Option codes RPM limits graph Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Compensated transmitter temperature Receiver Display (receiver) Filter (receiver) Vibration and shock (PSU) RF operating frequency Analog output (receiver) 62s. 100 C [212 F] 62a. Horsepower-hour totalizer 62b. Revolutions totalizer 62c. Remote display 62d. EMI filter for analog outputs 62g. Heavy duty shield and receiver 10.7 MHz 1 ±10 1 ma 62e. 1 channel 4 ma to 20 ma isolated output 62f. 2 channel 4 ma to 20 ma isolated output Typical system diagram subject to change. Questions? Contact us at either , 353

68 Model 1205B Rotary Torque/RPM/HP Measurement System dc to 1000 Hz frequency response 1 to 3 channels wireless telemetry 175 microstrain (0.5 mv/v) transmitter sensitivity Notes 1. 4,6 m [15 ft] is the standard cable length, other lengths are available. Consult factory. 2. Consult factory for other frequencies ,8 mm to 203,2 mm [2 in to 8 in] is standard shaft diameter, consult factory for other shaft diameters. Combine the order code and the option codes. For example: WI c WI1100 Option code Model 1205B rotary torque/rpm/hp measurement system Performance Frequency response dc to 1000 Hz Sensitivity (transmitter) 175 microstrain (0.5 mv/v) Number of channels 1 to 3 Sampling rate 10 khz Receiver readout display type 3.5 digit 7 segment LED Temperature, operating (transmitter) -55 C to 125 C [-67 F to 257 F] Temperature, op. (receiver/ips/psu) 10 C to 50 C [50 F to 122 F] Temperature, comp. (transmitter) 0 C to 75 C [32 F to 167 F] Temperature, compensated (receiver) 10 C to 50 C [50 F to 122 F] Static G force (rotating components) G RPM limits (rotating components) See graph - depends on shaft diameter Vibration (rotating components) 100 G to 1 khz Collar weight Varies with shaft diameter Electronics weight (not incl. cables) Receiver and PSU 12,2 kg [27 lb] Induction power source 160 khz ±6 % Cable length (IPS to receiver) 4,6 m [15 ft] standard 1 Max. cable length (IPS to receiver) 152,4 m [500 ft] Power supply voltage (receiver) 115/230 Vac user-selectable Power consumption (receiver) 100 VA max. RF operating frequency 10.7 MHz 2 RF modulation type FSK Analog output (receiver) ±10 5 ma max. Output impedance (receiver) < 1 ohm termination (receiver output) BNC female Mating connector (receiver output) BNC male termination (transmitter) 9 pins, 0,64 mm [0.025 in] diameter Mechanical Dimensions (collar cross section) 31,8 mm x 31,8 mm [1.25 in x 1.25 in] typical (152,4 mm [6 in] OD min.) Dimensions (receiver) (L x W x H) 431,8 mm x 457,2 mm x 133,3 mm [17 in x 18 in x 5.25 in] Dimensions (IPS) (L x W x H) 152,4 mm x 101,6 mm x 50,8 mm [6 in x 4 in x 2 in] Shaft diameter limits (collar) 50,8 mm to 1066,8 mm [2 in to 42 in] 3 Collar material Type G-11 glass epoxy 354 Questions? Contact us at either , subject to change.

69 Option codes RPM limits graph Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. Compensated transmitter temperature Display (receiver) Vibration and shock (PSU) RF operating frequency Analog output (receiver) 62s. 100 C [212 F] 62c. Remote display 62j. Vibration/shock rated PSU 10.7 MHz 1 ±10 5 ma 62e. 1 channel 4 ma to 20 ma isolated output Typical system diagram subject to change. Questions? Contact us at either , 355

70 Model 1402A Induced Power Supply Unit Enter the product order code. For example: 1402A 1402A Model 1402A induced power supply unit The Model 1402A power module assembly consists of a tunable power amplifier that is mounted in an enclosure. The enclosure is mounted on a frame that contains a multi-coil winding that is used to provide operating power to the transmitter. The winding acts as the primary of an air-core transformer operating at 160 KHz and the rotating antenna is the secondary. The frame is mounted in-line with the rotating antenna on a radial from the center of the kiln. Power to drive the coil is provided by the receiver. 356 Questions? Contact us at either , subject to change.

71 Model 1442B Receiver Display Unit Enter the product order code. For example: 1442B 1442B Model 1442B receiver display unit For use with Model 1400 temperature measurement system. Performance Voltage output Current output Power requirements Temperature, operating Size Weight 10 V into no less than 2000 ohm 4 ma to 20 ma or 0 ma to 20 ma, user selectable 115 Vac/230 Vac, 50 Hz/60 Hz, 200 VA 0 C to 65 C [32 F to 149 F] 355,6 mm x 304,8 mm x 152,4 mm [14 in x 12 in x 6 in] 7.3 kg [16 lb] subject to change. Questions? Contact us at either , 357

72 Model 1642 Receiver/Display Unit Enter the product order code. For example: Model 1642 receiver/display unit (1 or 2 channel, 4 ma to 20 ma optional analog output) For use with 1202, 1602, 1603 systems ±0.75 % of full scale torque accuracy ±1 % of full scale power accuracy dc to 1000 Hz frequency response Performance Readout unit displays (2) Frequency response Accuracy Torque RPM Power Temperature, operating Weight Analog recorder outputs Torque RPM Power Recorder output impedance Power requirements Power consumption Mechanical Enclosure type Enclosure size (W x H x D) Output and input connections ±3½ digits dc to 1000 Hz (3-db limit) ±0.75 % of full scale ±0.25 % of full scale ±1 % of full scale 10 C to 49 C [50 F to 120 F] 13,06 kg [30 lb] ±5 V scaled (+100 % overrange, HP system only) 0 V to 10 V scaled 0 V to 10 V scaled <1.0 ohm resistive nominal 115/230 Vac (-15 % to +10 %) selectable, 50/60 Hz 100 VA max. Aluminum NEMA type 4 (water tight) wall mounting 406,4 mm x 508 mm 254 mm [16 in x 20 in x 10 in] Screw terminals 358 Questions? Contact us at either , subject to change.

73 Model 2145 AC/DC Receiver Combine the order code and option codes. For example: u-A Option code Scalable ±10 Vdc output User selectable output filter dc to 1000 Hz frequency response Option codes dc input power Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see com/tmsensor-ship for updated listings. 62u. Please specify: A. 10 Vdc to ma B. 18 Vdc to ma For use with Model 2100 series systems and Model 9300 system Model 2145 ac/dc receiver Performance Frequency response dc to 1000 Hz Number of channels 1 Receiver readout display type 3.5 digit 7-segment LED Temperature, operating -15 C to 65 C [5 F to 149 F] Temperature, compensated 0 C to 53 C [32 F to 127 F] Weight 2,7 kg [6 lb] Induction power source To IPS 7.5 Vdc to ma Cable length (IPS/PSU to receiver) 4,6 m [15 ft] standard Max. cable length (IPS/PSU to receiver) 30,5 m [100 ft] Power supply voltage 2145ac 120/240 Vac user-selectable Power supply voltage 2145dc 10 Vdc to 18 Vdc or 18 Vdc to 32 Vdc Power consumption 2145ac 200 VA max. Power consumption 2145dc 1500 Vdc, Vdc RF operating frequency Factory set, 13 MHz to 22 MHz, 1 MHz steps RF modulation type PWM (FSK) Signal strength indicator (receiver) LED bar graph Analog output (receiver) ±10 ma max. Output impedance (receiver) < 1 ohm termination BNC female Mating connector BNC male Output filter capability (receiver) user selectable 1000, 500, 200, 100, 1 Hz Mechanical Dimensions (L x W x H) 292,1 mm x 218,4 mm x 88,9 mm [11.5 in x 8.6 in x 3.5 in] Case material Aluminum subject to change. Questions? Contact us at either , 359

74 Model 2120B/C Strain Gage Transmitter The code consists of the order code & option codes. For example: s Option code 5 Vdc regulated excitation 175 microstrain sensitivity One channel Option codes Extended temperature range Pin access Many range/option combinations are available in our quick-ship and fast-track manufacture programs. Please see honeywell.com/tmsensor-ship for updated listings. 62s. Max. 100 C [212 F] compensated temperature 62t. Unregulated voltage pin RPM limits graph For use with 1202, 1205, and 2100 series systems Model 2120B/C strain gage transmitter Performance Frequency response dc to 1000 Hz Sensitivity (transmitter) 175 microstrain (0.5 mv/v) Number of channels 1 Sampling rate 10 khz Temperature, operating -55 C to 125 C [-67 F to 257 F] Temperature, compensated 0 C to 75 C [32 F to 167 F] Static G force (rotating components) G RPM limits (rotating components) See graph- depends on shaft diameter Vibration (rotating components) 100 G to 1 khz Weight 16,3 g [0.036 lb] typical Induction power source 160 khz ±6 % RF operating frequency Factory set, 13 MHz to 22 MHz, 1 MHz steps (specify frequency in order code) RF modulation type PWM (FSK) Bridge excitation (transmitter) 5 15 ma Bridge resistance (transmitter) 350 ohm min. termination 9 pins, 0,64 mm [0.025 in] diameter Mechanical Dimensions (L x W x H) Case material 38,1 mm x 22,3 mm x 12,7 mm [1.5 in x 0.88 in x 0.5 in] (not including pins) Glass-fiber DAP resin Mounting dimensions and characteristics For reference only 360 Questions? Contact us at either , subject to change.

75 Model 1211D Power Separation Unit Enter the order code. For example: Model 1211D power separation unit Used by the 1200 and 1700 series products Maximum cable length of 500 ft to receiver Aluminum case material The 1211D power separation unit (PSU) is a flange mounted box which contains an impedance matching transformer and resonation capacitance decade switch. This device matches the high voltage low current 160 khz oscillator power source to the low voltage high current single loop stationary antenna inserted into connections of the 1211D. In addition to transferring power to the transmitter, the antenna also receives the RF data signal and routes it via coaxial cable to the receiver for processing. Temperature, operating -15 C to 50 C [5 F to 122 F] Weight 3 lb Induction power source 160 khz ±6 % Cable length (PSU to receiver) Varies on application Max. cable length (PSU to receiver) 152,4 m [500 ft] termination BNC female Mating connector BNC male Mechanical Dimensions (L x W x H) 152,4 mm x 101,6 mm x 50,8 mm [6 in x 4 in x 2 in] Case material Aluminum Typical system diagram subject to change. Questions? Contact us at either , 361

76 Model 1711A Induced Power Supply Unit Enter the product order code. For example: 1711A 1711A Model 1711A induced power supply (for use with 1701 and 1706 systems) The 1711A power module consists of a tunable power amplifier (PTU) that is contained within an NEMA 12 enclosure and a stationary loop antenna that is usually formed from 5/32 in diameter brass rod. The stationary antenna is placed around the transmitter assembly and then connected to the PTU. The PTU is secured by a bracket to the motor housing. The power module unit is powered by the receiver electronics unit. In addition to transferring power to the transmitter, the antenna also receives the RF data signal and routes it via coaxial cable to the receiver for processing. 362 Questions? Contact us at either , subject to change.

77 Model 2175A Induced Power Supply Unit Combine the order code & antenna diameter code. For example: A 01 Diameter code Model 2175A induced power supply unit Used by the 2100 series products up to 3 channels 1 No physical contact to rotating components User accessible tuning for different antenna diameters Notes 1. For more than 3 channel systems consult factory. The 2100 series products use the 2175A induction power supply (IPS) for systems up to three channels 1. The 2175 IPS receives variable dc power via the coaxial cable connected to the receiver. The IPS contains an oscillator that operates at 160 khz whose signal is fed to current amplifiers. The current amplifiers drive a resonant transformer/capacitor circuit through the stationary antenna. The 160 khz power is coupled into the rotating antenna loop as in an air core transformer. The RF signal is received from the rotation antenna loop capacitively. A toroid transformer in the IPS separates the RF signal from the 160 khz and places it on the coaxial cable for routing to the receiver. Internal switches and capacitor sockets allow user to adjust IPS for best resonance at various antenna sizes. For antenna diameters up to 304,8 mm [12 in] use order code A-01. For antenna diameters greater than 304,8 mm [12 in] use order code A-02. Temperature, operating -15 C to 65 C [5 F to 149 F] Weight 680,4 g [1.5 lb] Induction power source 160 khz ±6 % Cable length (IPS to receiver) 4.6 m [15 ft] standard Max. cable length (IPS to receiver) 30.5 m [100 ft] Power supply voltage 7.5 Vdc to 15 Vdc Power consumption 500 ma max. termination (input) BNC female Mating connector BNC male Mechanical Dimensions (L x W x H) 152,4 mm x 101,6 mm x 63,5 mm [6 in x 4 in x 2.5 in] Case material Aluminum alloy Typical system diagram As part of the 2100 monitoring system subject to change. Questions? Contact us at either , 363

78 Model 1408A Stationary Antenna Unit Enter the product order code. For example: 1408A 1408A Model 1408A stationary antenna unit (for use with Model 1400B system) The Model 1408 A stationary antenna assembly consists of a segmented whip antenna and tuning assembly that receives the data signal from the transmitter and routes this signal via a coaxial cable to the receiver. 364 Questions? Contact us at either , subject to change.

79 Model 1427A Strap On Rotating Antenna Kit Enter the product order code. For example: 1427A 1427A Model 1427A strap on rotating antenna kit (For use with Model 1400B system) The Model 1427A rotating antenna assembly consists of a stainless steel strap structure which supports a brass antenna approximately six inches from the outer shell. The antenna is assembled using pairs of stainless steel springs to join sections. The springs maintain tension as the shell expands and contracts during periods of warm-up and cooling. subject to change. Questions? Contact us at either , 365

80 Model 2126A Rotating Shaft Collar with Rotary Antenna Combine the order code and specify the shaft OD to ±0.005 in. For example: Shaft OD (in) Model 2126A rotating shaft collar with rotary antenna (For use with Model 2100 series systems and Model 1202, 1205 systems) Type G-11 glass epoxy collar material Shaft sizes from 50,8 mm to 1066,8 mm [2 in to 42 in] Mounting dimensions and characteristics Temperature, operating Static G force (rotating components) RPM limits (rotating components) Vibration (rotating components) Weight Mechanical Shaft diameter limits (collar) Collar material -55 C to 125 C [-67 F to 257 F] G See graph- depends on shaft diameter 100 G to 1 khz Varies with shaft diameter 50,8 mm to 1066,8 mm [2 in to 42 in] Type G-11 glass epoxy Typical system diagram For reference only RPM limits graph 366 Questions? Contact us at either , subject to change.

81 Model 1418B Six-Channel Temperature Transmitter Enter the product order code. For example: 1418B 1418B Model 1418B six-channel temperature transmitter (For use with Model 1400B system) Operating temperature 0 C to 85 C [32 F to 185 F] Sensor input 6 thermocouples, any type Measurement range Full range of thermocouple Input channels 3, standard Accuracy ±2 C Mechanical Dimensions 24 in x 20 in x 15 in Assembly weight 16 kg [35 lb] Enclosure NEMA 4X, stainless steel Options Input channels Expand to six Sensor input RTDs subject to change. Questions? Contact us at either , 367

82 Model 1400B Kiln Temperature Monitoring System Enter the product order code. For example: 1400B 1400B Model 1400B kiln temperature monitoring system The 1400B series kiln temperature monitoring system is designed for internally fired cement, lime recovery, and other large industrial diameter kilns. The Model 1400B consists of the following: Model No. Description 1418B Transmitter 1442B Receiver 1420A Power supply 1427A Rotating antenna 1408A Stationary antenna 368 Questions? Contact us at either , subject to change.

83 Model 1700A Six-Channel Temperature Monitoring System (RTD Based - Clamp-On Collar) Enter the product order code. For example: 1700A 1700A Model 1700A six-channel temperature monitoring system (RTD based - clamp-on collar) The 1700 systems are designed as instruments to monitor large motors (350 HP and larger). The systems monitor up to six customerset temperature points, using RTDs (see Models 1705 and 1706 for thermocouples) and provide an alarm output for over-temperature conditions. The system can be configured to shut down the motors using the alarm output. The Model 1700 system scans multiple Resistance Temperature Devices (RTDs) installed within the rotor windings or the starter bars providing data on minute changes in the thermal condition of the motor. Temperature monitoring of the windings is key to smooth operation. Overheating is a clear signal of an impending problem. This system monitors up to six RTD type temperature sensors and indicates the temperatures on an alphanumeric display. Any channel with a temperature greater than a programmable alarm set point can be displayed. The alarm feature has a relay output. The non-contact transmission method means no-fault path from the rotor to ground exists. Model 1701A Six-Channel Temperature Monitoring System (RTD Based - Strap-On Collar) Enter the product order code. For example: 1701A 1701A Model 1701A six-channel temperature monitoring system (RTD based - strap-on collar) The 1701 systems are designed as instruments to monitor large motors (350 HP and larger). The systems monitor up to six customerset temperature points, using RTDs (see Models 1705 and 1706 for thermocouples) and provide an alarm output for over-temperature conditions. The system can be configured to shut down the motors using alarm output. The Model 1701 system scans multiple Resistance Temperature Devices (RTDs) installed within the rotor windings or the starter bars providing data on minute changes in the thermal condition of the motor. Temperature monitoring of the windings is key to smooth operation. Overheating is a clear signal of an impending problem. This system monitors up to six RTD type temperature sensors and indicates the temperatures on an alphanumeric display. Any channel with a temperature greater than a programmable alarm set point can be displayed. The alarm feature has a relay output. The non-contact transmission method means no-fault path from the rotor to ground exists. (Optional) (Optional) subject to change. Questions? Contact us at either , 369

84 Model 1705A Six-Channel Temperature Monitoring System (Thermocouple Based - Clamp- On Collar) Enter the product order code. For example: 1705A 1705A Model 1705A six-channel temperature monitoring system (Thermocouple based - clamp-on collar) The 1705 systems are designed as as instruments to monitor large motors (350 HP and larger). The systems monitor six customer-set temperature points, using thermocouples (see Models 1700 and 1701 for RTDs) and provide an alarm for over-temperature conditions. The system can be configured to shut down the motors via relay output. The Model 1705 system scans multiple thermocouples installed within the rotor windings or the starter bars providing data on minute changes in thermal condition of the motor. Temperature monitoring of the windings is key to smooth operation. Overheating is a clear signal of an impending problem. This system monitors up to six rotor winding temperatures and sequentially displays all six rotor temperatures. Any channel with a temperature greater than a programmable alarm set point can also be indicated on the display. The alarm feature has a relay output. The non-contact transmission method means no-fault path from the rotor to ground exists. Model 1706A Six-Channel Temperature Monitoring System (Thermocouple Based - Strap- On Collar) Enter the product order code. For example: 1706A 1706A Model 1706A six-channel temperature monitoring system (Thermocouple based - strap-on collar) The 1706 systems are designed as instruments to monitor large motors (350 HP and larger). The systems monitor six customer-set temperature points, using thermocouples (see Models 1700 and 1701 for RTDs) and provide an alarm for over-temperature conditions. The system can be configured to shut down the motors via relay output. The Model 1706 system scans multiple thermocouples installed within the rotor windings or the starter bars providing data on minute changes in thermal condition of the motor. Temperature monitoring of the windings is key to smooth operation. Overheating is a clear signal of an impending problem. This system monitors up to six rotor winding temperatures and sequentially displays all six rotor temperatures. Any channel with a temperature greater than a programmable alarm set point can also be indicated on the display. The alarm feature has a relay output. The non-contact transmission method means no-fault path from the rotor to ground exists. (Optional) (Optional) 370 Questions? Contact us at either , subject to change.

85 Model 1730A Six-Channel RTD Temperature Transmitter and Clamp-on Collar Assembly Model 1731A Six-Channel RTD Temperature Transmitter and Strap-on Collar Assembly Enter the product order code. For example: 1730A 1730A Model 1730A six-channel RTD temperature transmitter and clamp-on collar assembly The module support ring is an Aluminum housing that consists of two pieces forming a circle around the shaft. The housing adds about 2.5 in around the shaft. It is attached to the shaft in a proprietary bolt pattern. For 1700 systems. Enter the product order code. For example: 1731A 1731A Model 1730A six-channel RTD temperature transmitter and strap-on collar assembly The module support ring is a metal band clamp (strap-on collar) and a counter balance assembly. The transmitter is enclosed in a NEMA 4 enclosure that is held by the band clamp. These are secured to the shaft by tightening t-bolt nuts to predefined torque levels. For 1701 systems. Sensor input 6 RTD, 100 ohm platinum Measurement range -25 C to 165 C [-4 F to 329 F] or 20 C to 600 C [68 F to 1112 F] preselected Measurement accuracy ±2 C Induction input power 160 khz RF operating frequency 10.7 MHz Mechanical Dimensions Motor shaft diameter 101,6 mm x 160,02 mm x 60,96 mm [4 in x 6.3 in x 2.4 in] Bolt on transmitter outside diameter Stationary antenna loop diameter in to in 376,86 mm [10.90 in] 263,65 mm [10.38 in] in to in 347,98 mm [13.70 in] 334,77 mm [13.18 in] in to in 411,48 mm [16.20 in] 398,27 mm [15.68 in] Operating temperature range 0 C to 85 C [32 F to 185 F] Sensor input 6 RTD, 100 ohm platinum Measurement range -25 C to 165 C [-4 F to 329 F] or 20 C to 600 C [68 F to 1112 F] preselected Measurement accuracy ±0.5 C typical Induction input power 160 khz RF operating frequency 10.7 MHz Mechanical Weight 2.5 kg [6 lb] subject to change. Questions? Contact us at either , 371

86 Model 1735A Six-Channel Thermocouple Temperature Transmitter and Clamp-on Collar Assembly Model 1736A Six-Channel Thermocouple Temperature Transmitter and Strap-on Collar Assembly Enter the product order code. For example: 1735A 1735A Model 1730A six-channel thermocouple temperature transmitter and clamp-on collar assembly The module support ring is an Aluminum housing that consists of two pieces forming a circle around the shaft. The housing adds about 2.5 in around the shaft. It is attached to the shaft in a proprietary bolt pattern. For 1705 systems. Enter the product order code. For example: 1736A 1736A Model 1730A six-channel thermocouple temperature transmitter and strap-on collar assembly The module support ring is a metal band clamp (strap-on collar) and a counter balance assembly. The transmitter is enclosed in a NEMA 4 enclosure that is held by the band clamp. These are secured to the shaft by tightening t-bolt nuts to predefined torque levels. For 1706 systems. Operating temperature range 0 C to 85 C [32 F to 185 F] Sensor input 6 thermocouples, any type Measurement range Full range of thermocouples Measurement accuracy ±0.5 % Induction input power 160 khz RF RF operating frequency 10.7 MHz Mechanical Size of assembly ±2.5 in around shaft Motor shaft diameter Bolt on transmitter outside diameter Stationary antenna loop diameter in to in 376,86 mm [10.90 in] 263,65 mm [10.38 in] in to in 347,98 mm [13.70 in] 334,77 mm [13.18 in] in to in 411,48 mm [16.20 in] 398,27 mm [15.68 in] Temperature range B type T/C E type T/C J type T/C K type T/C R type T/C S type T/C T type T/C 90 C to 1820 C [194 F to 3308 F] -90 C to 660 C [-139 F to 1220 F] -100 C to 760 C [-148 F to 1400 F] -150 C to 1230 C [-238 F to 2246 F] 0 C to 1665 C [32 F to 3209 F] 0 C to 1665 C [32 F to 3209 F] -155 C to 400 C [-247 F to 752 F] 372 Questions? Contact us at either , subject to change.