| Characteristic | Symbol Unit Condition |
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| Min. | Typ. Max. |
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| IPN | A -1500 — 1500 full temperature range |
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| Supply voltage | VS V 7 12 18 full accuracy |
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| maximum | VUP V — 18.1 — when VS increases |
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| VUP | V — 17.7 — when VS decreases |
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| minimum | VLOW V — 7.3 — when VS increases |
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| VLOW | V — 6.9 — when VS decreases |
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| at IP = 0 A | ISUPPLY mA — 21 30 VS = 12 V, T = 25°C |
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| at IP ≠ 0 A | ISUPPLY mA — 160 200 VS = 12 V, T = 25°C temperature range with |
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| Ambient operating temperature | Ta °C -40 — 85 accuracy guaranteed, ±3 sigma |
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| IOS | A -0.1 — 0.1 3 sigma, T = 40°C to 85°C |
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| Total accuracy at 10 A < IP ≤ 1500 A | XG — — ±1% — 3 sigma, T = 40°C to 85°C |
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| Housing material | PA66+GF25 (UL 94V - 0) M5, torque max. 3.5 N m The installation bracket should have a flatness tolerance of ≤0,2 mm. The size tolerances of the installation |
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| Mounting screws | bracket and nut, as well as the use of installation tools and fixtures, have an impact on the maximum installation torque of the product. If there are any relevant design or process changes, it is advisable to implement them after verification. TE MPN 1473672-1 |
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| 重量 | 168 g ±5 g CSNV1500 Series Datasheet | sps.honeywell.com/ast | 2 TABLE 4. CANBUS SPECIFICATIONS1, 2, 3,4 Message |
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| Message | Data Signal Start |
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| Can ID | Launch Signal Name Length |
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| Description | Length Description Bit Type Ip value: 80000000h = 0 mA |
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| IP_VALUE | 24 32 7FFFFFFFh = -1 mA |
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| Cyclic | 80000001h = 1 mA |
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| Output | transmitted Error indication (1 bit) See |
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| current Ip | 8 bytes message 0 = normal ERROR_INDICATION 32 1 Figure 2 (mA) 10 mSec 1 = failure cycle Error information |
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| ERROR_INFORMATION 33 | 7 0x64 when indication = 0 |
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| Fixed to 0 | VACANT_DATA_3BYTES 56 24 CANBUS speed: See Figure 2 CAN bus protocol: Version 2.0A CAN oscillator tolerance: 0.3125 % Byte order: Big endian (Motorola) TABLE 5. DIAGNOSTIC TROUBLE CODES |
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| Failure mode | Ip Value Error Indication Error Information |
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| Flash CRC error | FFFF FFFFh 1 0x40 |
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| AFE over range | FFFF FFFFh 1 0x41 |
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| AFE error | FFFF FFFFh 1 0x42 |
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| Internal LUT error | FFFF FFFFh 1 0x44 |
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| Power minimum limit | FFFF FFFFh 1 0x46 |
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| Power maximum limit | FFFF FFFFh 1 0x47 CSNV1500 Series Datasheet | sps.honeywell.com/ast | 3 |
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| Catalog listing | Description CSNV1500 Series Hall-based current sensor, 1500 A, through-hole mounting with stainless steel bushing, MCU1, 250k baud rate, 3C4 CAN ID CSNV1500 Series Hall-based current sensor, 1500 A, through-hole mounting with stainless steel bushing, MCU1, 250k baud rate, 3C5 CAN ID CSNV1500 Series Hall-based current sensor, 1500 A, through-hole mounting with stainless steel bushing, MCU1, 250k ba |
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| CS | N V 1500 N 1 5 4 X |
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| Rated | Fixture MCU Baud |
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| 類型 | Principle Use CAN ID2 Customization3 |
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| Current | Type Type1 Rate |
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| Hall-based | V Designed vehicle for 1500 1500 A N mounting with 250 k 3C4 A to Z |
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| applications | stainless 3 MCU2 5 500 k 5 3C5 steel bushing 6 3C6 The MCU1 version is a drop-in replacement for the MCU2 version. There is no change to product fit, form, or function. The MCU options improve material supply. Custom CAN IDs are available. Contact Honeywell Customer Service for more information. Other customizations contact Honeywell Customer Service for more information. 73,6 [2.90] 63,5 [2.5] ø2 |
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| [2,70] | [0.47] [1.26] 31 2X ø5,41 |
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| [1.22] | [0.21] |
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| SEE DETAIL A | 29,8 48,7 |
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| [1.92] | [1.17] TABLE 7. PINOUT 8,55 PIN OUTPUT [0.336] 1 CAN-L 8,75 |
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| [0.34] | 2 CAN-H 3 GND 4 VS DETAIL A Mating connector: TE MPN 1473672-1 2D Barcode includes: C SNV1500N-X X X : C ATALOG LISTING (E X AMPLE ) Y YDDD00N: SN CODE Y Y: PART PRODUCTION YE AR DDD: DAY OF THE YE AR 00N: NUMBER (IN HE X ADECIMAL) OF DAILY PART PRODUCTION CSNV1500 Series Datasheet | sps.honeywell.com/ast | 5 |
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| Test | Standard Procedure According to CISPR 25:2008 Commission Form of |
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| CISPR 25 Conducted RF Emissions - Voltage | CISPR25 Testing According to CISPR 25:2008 Commission Form of |
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| CISPR 25 Conducted RF Emissions - Current | CISPR25 Testing According to CISPR 25:2008 Commission Form |
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| CISPR 25 Radiated Emissions- ALSE method | CISPR25 of Testing |
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| Transient Conduction Emission | ISO 7637-2 According to ISO 7637-2 |
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| Low Frequency Magnetic Field Emission | SAE J551-5 According to SAE J551-5 |
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| Low Frequency Field Interference | ISO 11452-8 According to ISO 11452-8 |
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| Bulk Current Injection (BCI) Test | ISO 11452-4 According to ISO 11452-4 |
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| Rf Anti-Interference - ALSE Method | ISO 11452-2 According to ISO 11452-2 |
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| ISO 7637-2 | According to ISO 7637-2 |
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| ISO 7637-3 | According to ISO 7637-3 Unpowered direct contact discharge: ±8 kV Unpowered air discharge: ±15 kV |
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| Electrostatic Discharge | ISO 10605 Powered-up direct contact discharge: ±4 kV Powered-up ar discharge: ±10 kV |
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| Portable Transmitter | ISO 11452-9 According to ISO 11452-9 |
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| Surge | IEC 61000-4-5 ±0.5 kV 10 V/m (80 MHz to 1 GHz), |
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| Radio Frequency Electromagnetic Field | IEC 61000-4-3 3 V/m (1.4 GHz to 2 GHz). 1 V/m (2.0 GHz to 2.7 GHz) 2 kV Power port, 1 kV CAN signal and control port |
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| Radio Frequency Continuous Conducted | IEC 61000-4-6 0.15 MHz to 80 MHz, 3 V 80 % AM (1 kHz) |
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| Radio Frequency Magnetic Field | IEC 61000-4-8 30 A/M CSNV1500 Series Datasheet | sps.honeywell.com/ast | 6 |
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| Low Temperature Operating Test | ISO16750-4 25°C and VS nom. 3000 hr, 85°C, Performance test before and after test only |
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| High Temperature Operating Test | ISO16750-4 at 25°C and VS nom. 120 cycles, one cycle contains -40°C (120 min soak) & 85°C |
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| Thermal Cycle Test | ISO16750-4 (120 min soak).Transition time = 120 mins. Performance test before and after test only at 25°C and V S nom. |
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| High Temperature and Humidity | 1000 hr, 85°C, 85 % humidity, Performance test before and IEC 60069-2-67 |
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| Endurance | after test only at 25°C and V S nom. 5 Hz to 2000 Hz, 20 hr/axis, 3 axis with −40°C/85°C |
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| Vibration | IEC60068-2-64 temperature cycle during test. Performance test before and after test only at 25°C and V S nom. 500 m/s, 2,20 each direction (60 total), half sine pulse. |
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| Mechanical Shock | ISO16750-3 Performance test before and after test only at 25°C and V S nom. With final packaging, drop in direction at 1 corner, 3 edge, |
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| Package Drop | ISTA-1A 4 face > total 9 drops, 1 m on concrete floor. 1st fall of each DUT at a different dimensional axis, 2nd fall with the given DUT at the same dimensional axis but on the |
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| Handling Drop | ISO 16750-3 opposite side of the housing, from 1 m on concrete floor. Performance test before and after test only at 25°C and V S nom. |
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| ISO20653 | IP category: 40 |
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| Material Flame Grade | UL94 UL94-V0 CSNV1500 Series Datasheet | sps.honeywell.com/ast | 7 |
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| Long Time Overvoltage Test | ISO 16750-2 Power supply at 18 V for 60 min. Test voltage Uc max 16 V for 12 V systems; |
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| Superimposed Alternating Voltage | ISO 16750-2 ac voltage (sinusoidal): Severity 2, UPP = 4 V. Power supply changes from18 V to 0 V/ 0 V to 18 V with |
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| ISO 16750-2-4.5 | 0.5 V ±0.1 V step. At any step, power supply maintains 1 min. Product work well. |
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| Reset Behavior at Voltage Drop | ISO16750-2-4.6.2.2 See Fig. 6 |
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| Transient Overvoltage Test | ISO16750-2 Power supply at 24 V for 10 min. |
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| Momentary Drop in Supply Voltage | ISO 16750-2-4.6.1 Ucmin to 4.5 V. See Fig. 4 |
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| Load Dump | ISO 16750-2-4.6.4 Pulse described in Table 6. See Fig. 9 |
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| Reverse Voltage Test | ISO16750-2-4.7 Power supply at -24 V for 10 mins. Connect sensor to 12 V power supply and power on the |
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| Single line Open Circuit Tests | ISO16750-2-4.9 sensor. Disconnect Us, GND, CAN-H, and CAN-L in sequence. Each open circuit time :60 ±1 s Connect sensor to power supply and power on the sensor by 18 Vdc and 24 Vdc. Apply short circuit between CAN-H & |
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| Short Circuit Protection | ISO 16750-2-4.10 GND, CAN-L & GND, CAN-H & Us, CAN-L & Us. Each hold for 60 seconds |
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| dc Supply Voltage | ISO16750-2 Power supply at Ucmin 7 V and Ucmax 18 V |
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| Insulation Resistance Test | ISO 16750-2-4.12 500 Vdc ±10 Vdc for 60 s; Resistance criteria: ≥ 500 MOhm Test Voltage: 5000 Vdc & ac. Frequency: dc & 50 Hz~60Hz. Test Duration: 60s CSNV1500 Series Datasheet | sps.honeywell.com/ast | 8 m WARNING |
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| Honeywell warrants goods of its | PERSONAL INJURY manufacture as being free of defective DO NOT USE these products as safety |
|---|
| materials and faulty workmanship | or emergency stop devices or in any |
|---|
| during the applicable warranty period. | other application where failure of the |
|---|
| Honeywell’s standard product warranty | product could result in personal injury. |
|---|
| applies unless agreed to otherwise by | Failure to comply with these |
|---|
| Honeywell in writing; please refer to | instructions could result in death or |
|---|
| your order acknowledgment or consult | serious injury. your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the m WARNING |
|---|
| period of coverage, Honeywell will | MISUSE OF |
|---|
| repair or replace, at its option, without | DOCUMENTATION |
|---|
| charge those items that Honeywell, | • The information presented in this |
|---|
| in its sole discretion, finds defective. | product sheet is for reference only. Do not use this document as The foregoing is buyer’s sole remedy a product installation guide. |
|---|
| and is in lieu of all other warranties, | • Complete installation, operation, |
|---|
| expressed or implied, including those | and maintenance information |
|---|
| of merchantability and fitness for a | is provided in the instructions |
|---|
| particular purpose. In no event shall | supplied with each product. |
|---|
| Honeywell be liable for consequential, | Failure to comply with these |
|---|
| special, or indirect damages. | instructions could result in death or serious injury. While Honeywell may provide application assistance personally, through our literature and the Honeywell web site, it is buyer’s sole responsibility to determine the suitability of the product in the application. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this writing. Howeve |
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| For more information | assumes no responsibility for its use. |
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| USA/Canada | +1 302 613 4491 |
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| Latin America | +1 305 805 8188 |
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| Europe | +44 1344 238258 |
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| Japan | +81 (0) 3-6730-7152 |
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| Singapore | +65 6355 2828 |
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| Greater China | +86 4006396841 005998-4-EN | 5 | 01/24 |
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| www.honeywell.com | © 2024 Honeywell International Inc. All rights reserved. |
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