CSNV700N-455

_006009 Issue 4_ 

## CSNV700 SERIES 

## **Flux Gate Current Sensors** 

## DESCRIPTION 

The CSNV700 Series are advanced flux gate current sensors that use Honeywell patented technology to bring the enhanced combination of performance and reliability. They are non-intrusive and electrically isolated from the monitored circuit. This ensures a simple and reliable structure without loss of power to the monitored circuit. The CSNV700 Series is rated for a primary current measurement range of ±700 A dc and offers two supply voltage options: 12 Vdc and 24 Vdc. They are calibrated and temperature compensated for improved accuracy using multi-point temperature characterization. The CSNV700 incorporates AEC-Q100 qualified integrated circuits to meet higher quality and reliability requirements. 

## DIAGNOSTIC FUNCTIONALITY/ CAN OUTPUT 

The CAN output of the CSNV700 Series provides fault detection and communication capability. Also, the digital CAN communication is resistant to electrical interference. Examples of sensor and host system faults include: 

- Sensor fault 

- Supply voltage over range 

- Supply voltage under range 

## CUSTOMIZATION 

The CSNV700 Series may be customized to meet application needs. Solutions may be tailored to exact specifications for improved time to market, lower total system costs and enhanced reliability. For technical assistance, we provide global engineering and service support for your needs. 

## DIFFERENTIATION 

- **Accuracy:** Multi-point temperature characterization and calibration for improved accuracy over temperature range 

- **Magnetic immunity:** Flux gate configuration and optimized magnetic circuit allow for enhanced performance in diverse magnetic environments 

- **Flexible:** Customizable on-board firmware to meet specific application requirements 

## VALUE TO CUSTOMERS 

- **Accurate:** Designed to enable precise battery state measurement for improved user experience 

- **Ease of use:** Magnetic immunity and multiple voltage options allow easy and reduced cost of integration into various battery systems and magnetic environments 

- **Easy system integration:** CAN communication is transmitted using international road vehicle standard ISO 11898. CAN 2.0A is the default protocol 

## APPLICATIONS 

- Current measurement for battery management systems in electrified vehicles (EV, HEV, PHEV or BEV) 

- Current measurement for battery management systems in electric buses, trucks, and heavy-duty vehicles 

- Current leakage detection and fault isolation in charging systems 

- Current measurement in energy storage systems 

- Fault detection in heavy industrial equipment 

## AEC-Q100 

## FEATURES 

- Active flux gate current sensing 

- Utilizes proprietary Honeywell technology for temperature compensation 

- High accuracy and low temperature drift 

- 12 Vdc and 24 Vdc supply voltage options 

- Operating temperature of -40°C to 85°C [-40°F to 185°F] 

- Digital output: CAN bus output with selectable ID 

- Internal diagnostic function 

- Different configuration options: Mounting type, baud rate, CAN ID 

- UL, CE, UKCA certifications; REACH and RoHS compliant (For 24 Vdc supply voltage option: UL certified only for wall-mounted application) 

- AEC-Q100 qualified integrated circuits for higher reliability 

## PORTFOLIO 

Honeywell offers a variety of current sensors for potential use in many applications. To view the entire product portfolio, click here. 

## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

## TABLE 1. ABSOLUTE MAXIMUM RATINGS: SUPPLY VOLTAGE = 12 V (not operating) 

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Characteristic Symbol Unit Parameter Condition<br>Load dump over voltage VS V 32 400 mSec<br>24 10 min<br>Over voltage VS V<br>20 continuous<br>Reverse polarity VS V -24 10 min<br>Supply voltage:<br>   minimum VS V 7 Continuous<br>   maximum VS V 18 Continuous<br>CAN operation:<br>   supply voltage under range alarm, no measurement — V 7 to 8 CAN continuous<br>   supply voltage over range alarm, no measurement — V 18 to 24 CAN continuous<br>Insulation resistance IR MOhm >500 500 V dc at 1 min<br>Creepage distance DCp mm 10 Hole for busbar<br>Clearance DCl mm 9,5 Hole for busbar<br>RMS voltage:<br>   ac isolation voltage — kV 5 50 Hz, 1 min<br>   dc isolation voltage — kV 5 1 min<br>**----- End of picture text -----**<br>


## TABLE 2. ABSOLUTE MAXIMUM RATINGS: SUPPLY VOLTAGE = 24 V (not operating) 

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Characteristic Symbol Unit Parameter Condition<br>Load dump over voltage VS V 42 400 mSec<br>Over voltage VS V 36 10 min<br>Reverse polarity VS V -36 10 min<br>Supply voltage:<br>   minimum VS V 7 Continuous<br>   maximum VS V 32 Continuous<br>CAN operation:<br>   supply voltage under range alarm, no measurement — V 7 to 8 CAN continuous<br>   supply voltage over range alarm, no measurement — V 32 to 33 CAN continuous<br>Insulation resistance IR MOhm >500 500 V dc at 1 min<br>Creepage distance DCp mm 10 Hole for busbar<br>Clearance DCl mm 9,5 Hole for busbar<br>RMS voltage:<br>   ac isolation voltage — kV 5 50 Hz, 1 min<br>   dc isolation voltage — kV 5 1 min<br>**----- End of picture text -----**<br>


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## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

TABLE 3. OPERATING CHARACTERISTICS IN NOMINAL RANGE (IPN): SUPPLY VOLTAGE = 12 V 

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Specification<br>Characteristic Symbol Unit Condition<br>Min.  Typ. Max.<br>Primary current, nominal measuring range (dc) IPN A -700 — 700 —<br>Supply voltage VS V 8 12 18 —<br>Supply voltage hysteresis:<br>   maximum VUP V — 18.1 — When VS increases<br>VUP V — 17.7 — When VS decreases<br>   minimum VLOW V — 8.1 — When VS increases<br>VLOW V — 7.8 — When VS decreases<br>Current consumption:<br>   at IP = 0 A IC mA — 45 — VS = 12 V, T = 25°C<br>   at IP = 700 A IC mA — 270 — VS = 12 V, T = 25°C<br>Ambient operatingtemperature Ta °C -40 — 85 Temperature range with accuracy guaranteed<br>Total accuracy at 20 A < IP ≤ 700 A  XG % -0.5 — 0.5 T = -40°C to 85°C, ±3 sigma,<br>9 V < Vs < 16 V<br>Error:<br>   at IP = 0 A (offset current) Ios A -0.05 — 0.05 T = -40°C to 85°C, ±3 sigma<br>9 V < Vs < 16 V<br>   at IP < 20 A XG A -0.1 0.1 T = -40°C to 85°C, ±3 sigma<br>9 V < Vs < 16 V<br>Linearity e L % — ±0.1 — Room temperature<br>**----- End of picture text -----**<br>


TABLE 4. OPERATING CHARACTERISTICS IN NOMINAL RANGE (IPN): SUPPLY VOLTAGE = 24 V 

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Specification<br>Characteristic Symbol Unit Condition<br>Min.  Typ. Max.<br>Primary current, nominal  IPN A -700 — 700 —<br>measuring range (dc)<br>Supply voltage VS V 8 24 32 —<br>Supply voltage hysteresis:<br>   maximum VUP V — 32.1 — When VS increases<br>VUP V — 31.7 — When VS decreases<br>   minimum VLOW V — 8.1 — When VS increases<br>VLOW V — 7.8 — When VS decreases<br>Current consumption:<br>   at IP = 0 A IC mA — 45 — VS = 24 V, T = 25°C<br>   at IP = 700 A IC mA — 110 — VS = 24 V, T = 25°C<br>Ambient operatingtemperature Ta °C -40 — 85 Temperature range with accuracy guaranteed<br>Total accuracy at 20 A < IP ≤ 700 A  XG % -0.5 — 0.5 T = -40°C to 85°C, ±3 sigma,<br>16 V < Vs < 32 V<br>Error:<br>   at IP = 0 A (offset current) Ios A -0.05 — 0.05 T = -40°C to 85°C, ±3 sigma<br>16 V < Vs < 32 V<br>   at IP < 20 A XG A -0.1 0.1 T = -40°C to 85°C, ±3 sigma<br>16 V < Vs < 32 V<br>Linearity e L % — ±0.1 — Room temperature<br>**----- End of picture text -----**<br>


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FLUX GATE CURRENT SENSORS CSNV700 SERIES 

TABLE 5. MECHANICAL CHARACTERISTICS 

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Catalog Listing Description<br>Housing material Plastic PA66-GF25 (UL 94V-0)<br>M6, 6 N m maximum torque<br>The installation bracket should have a flatness tolerance of ≤0,2 mm. The size tolerances of<br>Mounting screw the installation bracket and nut, as well as the use of installation tools and fixtures, have an<br>impact on the maximum installation torque of the product. If there are any relevant design or<br>process changes, it is advisable to implement them after verification.<br>Mating electrical connector TEM PN 1473672-1<br>Weight 66,5 g ±5 g<br>**----- End of picture text -----**<br>


Figure 1. Error vs. Current 

Total Error @ -40°C to 85°C, typical 

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4<br>3<br>2<br>1<br>0<br>-1<br>-2<br>-3<br>-4<br>-700 -500 -300 -100 100 300 500 700<br>Primary Current (A)<br>Error Upper Limit Error Lower Limit<br>Error  (A)<br>**----- End of picture text -----**<br>


TABLE 6. CANBUS CHARACTERISTICS[1, 2, 3, 4] 

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Message  Data  Message Signal Signal Start<br>Can ID Length<br>Description  Length Launch Type Description Name Bit<br>Ip value:<br>80000000h = 0 mA<br>IP_VALUE 24 32<br>7FFFFFFFh = -1 mA<br>80000001h = 1 mA<br>Output  Cyclic  Error information ERROR_INFORMATION 32 7<br>See  transmitted<br>current Ip  8 bytes Error indication (1 bit):<br>Figure 2 message<br>(mA)    0 = normal ERROR_INDICATION 39 1<br>10 mSec cycle.<br>   1 = failure<br>Fixed to 0 VACANT_DATA_2BYTES 48 16<br>CRC-8<br>CRC_8 56 8<br>POLY: 8 + X2 + X + 1<br>**----- End of picture text -----**<br>


1CANBUS speed: Refer to Figure 2 

2CAN bus protocol: Version 2.0A 

3CAN oscillator tolerance: 0.3125 % 

4Byte order: Big endian (Motorola) 

TABLE 7. DIAGNOSTIC TROUBLE CODES 

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Failure mode Ip Value Error Indication Error Information<br>Flash CRC error FFFF FFFFh 1 0x48<br>AFE over range [1] FFFF FFFFh 1 0x49<br>AFE error FFFF FFFFh 1 0x50<br>Internal LUT error FFFF FFFFh 1 0x51<br>Power minimum limit FFFF FFFFh 1 0x54<br>Power maximum limit FFFF FFFFh 1 0x55<br>**----- End of picture text -----**<br>


1Overcurrent detection Ip > 740 A 

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FLUX GATE CURRENT SENSORS CSNV700 SERIES 

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TABLE 8. ORDER GUIDE<br>Catalog Listing Description<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-354<br>voltage, 500 k baud rate, 3C4 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-355<br>voltage, 500 k baud rate, 3C5 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-356<br>voltage, 500 k baud rate, 3C6 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-324<br>voltage, 250 k baud rate, 3C4 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-325<br>voltage, 250 k baud rate, 3C5 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 12 V supply<br>CSNV700N-326<br>voltage, 250 k baud rate, 3C6 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-454<br>voltage, 500 k baud rate, 3C4 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-455<br>voltage, 500 k baud rate, 3C5 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-456<br>voltage, 500 k baud rate, 3C6 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-424<br>voltage, 250 k baud rate, 3C4 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-425<br>voltage, 250 k baud rate, 3C5 CAN ID<br>CSNV700 Series current sensors, 700 rated current, through-hole with metal bushing, 24 V supply<br>CSNV700N-426<br>voltage, 250 k baud rate, 3C6 CAN ID<br>**----- End of picture text -----**<br>


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FLUX GATE CURRENT SENSORS CSNV700 SERIES 

Figure 2. Nomenclature 

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CSN V 700 N 3 5 4 X<br>Type Use Rated Current Mounting Type MCU Type Baud Rate CAN ID [1] Customization [2]<br>Current<br>Designed for 700 700 A Through hole 3 [MCU2 12 V] 2 250 k 4 3C4 A to Z<br>Sensor V vehicle N with metal<br>applications bushing 4 [MCU2 24 V] 5 500 k 5 3C5<br>6 3C6<br>**----- End of picture text -----**<br>


1 Custom CAN IDs are available. Contact Honeywell Customer Service for more information. 

2 Custom CAN Layouts are available. Contact Honeywell Customer Service for more information. 

3 For MCU Type “3”, refer to Table 1: Absolute Maximum Ratings and Table 3: Operating Characteristics in Nominal Range (IPN) 

4 For MCU Type “4”, refer to Table 2:  Absolute Maximum Ratings and Table 4: Operating Characteristics in Nominal Range (IPN) 

Figure 3. Positive Primary Current Direction (Polarity) 

Application condition: Pollution degree PD2 

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## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

## Figure 4. Dimensional Drawings (For reference only: mm/[in]) 

Mounting type N: Through-hole with metal bushing 

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76<br>[2.99]<br>63,5 ø24,2<br>[2.5]     [0.95]<br>12<br>[0.47]<br>68,2<br>[2.69]<br>32<br>[1.26]<br>   2X ø6,8<br>30,5           [0.27]<br>[1.20]<br>SEE DETAIL A 20,2<br>48,7 [0.80]<br>[1.92] 29,05<br>[1.14]<br>TABLE 9. PINOUT<br>Pin  Output<br>1 CAN-L<br>0,2 22,5<br>[0.008] 13,65 [0.89] 2 CAN-H<br>[0.54]<br>3 GND<br>5,3 4 VS<br>[0.21]<br>**----- End of picture text -----**<br>


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## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

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TABLE 10. EMC TEST SPECIFICATIONS<br>Test Standard Procedure<br>According to CISPR 25:2008<br>CISPR 25 Conducted RF Emissions - Voltage  CISPR25<br>Commission Form of Testing<br>According to CISPR 25:2008<br>CISPR 25 Conducted RF Emissions - Current   CISPR25<br>Commission Form of Testing<br>According to CISPR 25:2008<br>CISPR 25 Radiated Emissions- ALSE method CISPR25<br>Commission Form of Testing<br>Transient Conduction Emission ISO 7637-2 According to ISO 7637-2<br>Low Frequency Magnetic Field Emission SAE J551-5  According to SAE J551-5<br>Low Frequency Field Interference ISO 11452-8 According to ISO 11452-8<br>Bulk Current Injection (BCI) Test  ISO 11452-4  According to ISO 11452-4<br>Rf Anti-Interference - ALSE Method ISO 11452-2  According to ISO 11452-2<br>Transient Disturbances Conducted<br>ISO 7637-2  According to ISO 7637-2<br>along Supply Lines<br>Transient Disturbances Conducted<br>ISO 7637-3  According to ISO 7637-3<br>along I/O or Sensor Lines<br>Unpowered direct contact discharge:  ±8 kV<br>Unpowered air discharge: ±15 kV<br>Electrostatic discharge ISO 10605<br>Powered-up direct contact discharge: ±4 kV<br>Powered-up air discharge:  ±8 kV<br>Portable Transmitter ISO 11452-9 According to ISO 11452-9<br>Surge IEC 61000-4-5 ±0.5 kV<br>10 V/m (80 MHz to 1 GHz),<br>Radio Frequency Electromagnetic Field  IEC 61000-4-3  3 V/m (1.4 GHz to 2 GHz),<br>1 V/m (2.0 GHz to 2.7 GHz)<br>Fast Transients Bursts Susceptibility Test  IEC 61000-4-4  2 kV power port, 2 kV CAN signal and control port<br>Radio Frequency Continuous Conducted  IEC 61000-4-6  0.15 MHz to 80 MHz, 3 V 80 % AM (1 kHz)<br>Radio Frequency Magnetic Field  IEC 61000-4-8  30 A/M<br>Radiated Disturbance<br>CISPR-11  Group 1, Class A<br>(3M semi-anechoic chamber)<br>**----- End of picture text -----**<br>


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FLUX GATE CURRENT SENSORS CSNV700 SERIES 

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TABLE 11. ENVIRONMENTAL TEST SPECIFICATIONS<br>Test Standard Procedure<br>120 hr, -40°C, power on. Performance test before and after<br>Low Temperature Operating Endurance ISO 16750-4<br>test only at 25°C and VS nom.<br>High Temperature Operating  3000 hr, 85°C, power on. Performance test before and after<br>ISO 16750-4<br>Endurance test only at 25°C and VS nom.<br>120 cycles, one cycle contains -40°C (120 min soak) & 85°C<br>Thermal Cycle Test ISO 16750-4  (120 min soak). Transition time = 240 min. Performance test<br>before and after test only at 25°C and VS nom.<br>High Temperature and Humidity  1000 hr, 85°C, 85% humidity, power on. Performance test<br>IEC 60068-2-67<br>Endurance  before and after test only at 25°C and VS nom<br>5 Hz to 2000 Hz, 20 hr/axis, 3 axis with −40°C/85°C<br>temperature cycle during test. Product power on.<br>Vibration  IEC 60068-2-64<br>Performance test before and after test only at 25°C and VS<br>nom.<br>500 m/s, 2,20 each direction (60 total), half sine pulse.<br>Mechanical Shock  ISO 16750-3  Product power on. Performance test before and after test only<br>at 25°C and VS nom.<br>With final packaging, drop in direction at 1 corner, 3 edge,<br>Package Drop  ISTA-1A<br>4 face > total 9 drops, 1 m on concrete floor.<br>1 [st]  fall of each DUT at a different dimensional axis, 2 [nd]  fall with<br>the given DUT at the same dimensional axis but on the opposite<br>Handling Drop  ISO 16750-3<br>side of the housing, from 1 m on concrete floor. Performance<br>test before and after test only at 25°C and VS nom.<br>Waterproof and Dust<br>ISO 20653  IP category: 40<br>(and other Solid Intrusion)<br>**----- End of picture text -----**<br>


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## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

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TABLE 12. ELECTRICAL TEST SPECIFICATIONS FOR 12 VDC SUPPLY VOLTAGE OPTION<br>Test Standard Procedure<br>Long Time Overvoltage Test ISO 16750-2  Power supply at 18 V for 60 min.<br>Test voltage Uc max 18 V for 12 V systems;<br>Superimposed Alternating Voltage  ISO 16750-2<br>ac voltage (sinusoidal): Severity 2, UPP = 4 V<br>10 cycles. Power supply changes from18 V to 0 V/<br>Slow Decrease/Increase of Supply<br>ISO 16750-2-4.5 0 V to 18 V with 0.5 V ±0.1 V step. At any step, power supply<br>Voltage<br>maintain 1 min.<br>Slow Decrease Fast Increase of Supply<br>ISO 16750-2-4.5 According to ISO 16750-2-4.5 of testing standard and Fig<br>Voltage<br>Reset Behavior at Voltage Drop ISO16750-2-4.6.2.2 See Fig. 6<br>Momentary Drop in Supply Voltage ISO 16750-2-4.6.1 Ucmin to 4.5 V. See Fig. 4<br>Starting Profile ISO16750-2 According to ISO 16750-2 of testing standard and Fig<br>Reverse Voltage Test ISO16750-2-4.7 Power supply at -24 V for 10 min.<br>Connect sensor to 12 V power supply and power on<br>Single Line Open Circuit Tests  ISO16750-2-4.9 the sensor. Disconnect Us, GND, CAN-H, and CAN-L in<br>sequence. Each open circuit time: 60 s ±1 s<br>Connect sensor to 12 V power supply and power on the<br>Connector Open Circuit Tests  ISO16750-2 sensor. Disconnect connector.<br>Each open circuit time: 10 s ± 1s<br>dc Supply Voltage ISO16750-2 Power supply at Uc min. 7 V and Uc max. 18 V<br>Insulation Resistance Test ISO 16750-2-4.12 500 Vdc for 60 s; Resistance criteria: > 500 MOhm<br>Test voltage: 5000 Vdc & ac<br>dc & ac Voltage Insulation Test ISO 16750-2-4.12<br>Frequency: dc & 50 Hz~60 Hz. Test Duration: 60 s<br>**----- End of picture text -----**<br>


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## FLUX GATE CURRENT SENSORS CSNV700 SERIES 

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TABLE 13. ELECTRICAL TEST SPECIFICATIONS FOR 24 VDC SUPPLY VOLTAGE OPTION<br>Test Standard Procedure<br>Long Time Overvoltage Test ISO 16750-2 Power supply at 36 V for 60 min.<br>Test voltage Uc max 32 V for 24 V systems;<br>Superimposed Alternating Voltage  ISO 16750-2<br>ac voltage (sinusoidal): Severity 2, UPP = 4 V<br>10 cycles. Power supply changes from 32 V to 0 V/<br>Slow Decrease/Increase of Supply<br>ISO 16750-2-4.5 0 V to 32 V with 0.5 V ±0.1 V step. At any step, power supply<br>Voltage<br>maintains 1 min.<br>Slow Decrease Fast Increase of Supply<br>ISO 16750-2-4.5 According to ISO 16750-2-4.5 of testing standard and Fig<br>Voltage<br>Reset Behavior at Voltage Drop ISO16750-2-4.6.2.2 See Fig. 6<br>Momentary Drop in Supply Voltage ISO 16750-2-4.6.1 Ucmin to 4.5 V. See Fig. 4<br>Starting Profile ISO16750-2 According to ISO 16750-2 of testing standard and Fig<br>Reverse Voltage Test ISO16750-2-4.7 Power supply at -36 V for 10 min.<br>Connect sensor to 24 V power supply and power on   the<br>Single Line Open Circuit Tests  ISO16750-2-4.9 sensor. Disconnect Us, GND, CAN-H, and CAN-L in<br>sequence. Each open circuit time: 60 s ±1 s<br>Connect sensor to 24 V power supply and power on the<br>Connector Open Circuit Tests  ISO16750-2 sensor. Disconnect connector.<br>Each open circuit time: 10 s ± 1s<br>dc Supply Voltage ISO16750-2 Power supply at Uc min. 7 V and Uc max. 32 V<br>Insulation Resistance Test ISO 16750-2-4.12 500 Vdc for 60 s; Resistance criteria: > 500 MOhm<br>Test voltage: 5000 Vdc & ac.<br>dc & ac Voltage Insulation Test ISO 16750-2-4.12<br>Frequency: dc & 50 Hz~60 Hz. Test Duration: 60 s<br>**----- End of picture text -----**<br>


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## For more information 

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Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship during the applicable warranty period. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgment or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items that Honeywell, in its sole discretion, finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages. 

While Honeywell may provide information or engineering support for its products through Honeywell personnel, literature and website, it is the buyer’s sole responsibility to determine the suitability of the Honeywell product(s) for the buyer’s requirements. 

Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this writing. However, Honeywell assumes no responsibility for its use. 

## m WARNING PERSONAL INJURY 

DO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury. 

Failure to comply with these instructions could result in death or serious injury. 

## m WARNING MISUSE OF DOCUMENTATION 

- The information presented in this product sheet is for reference only. Do not use this document as a product installation guide. 

- • Complete installation, operation, and maintenance information is provided in the instructions supplied with each product. 

Failure to comply with these instructions could result in death or serious injury. 

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006009-4-EN  |  4  |  07/24 © 2024 Honeywell International Inc. All rights reserved.