ACS724LMATR-20AB-T

ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package DESCRIPTION FEATURES AND BENEFITS • AEC-Q100 automotive qualified • Differential Hall sensing rejects common-mode fields • Patented integrated digital temperature compensation circuitry allows for near closed loop accuracy over temperature in an open loop sensor • UL60950-1 (ed. 2) certification (pending) □□ Dielectric Strength Voltage = 4.8 kVRMS □□ Basic Isolation Working Voltage = 1097 VRMS □□ Reinforced Isolation Working Voltage = 565 VRMS • Industry-leading noise performance with greatly improved bandwidth through proprietary amplifier and filter design techniques • Filter pin allows user to filter output for improved resolution at lower bandwidth • 0.85 mΩ primary conductor resistance for low power loss and high inrush current withstand capability • Low-profile SOIC16 package suitable for spaceconstrained applications • 4.5 to 5.5 V single supply operation • Output voltage proportional to AC or DC current • Factory-trimmed sensitivity and quiescent output voltage for improved accuracy • Chopper stabilization results in extremely stable quiescent output voltage • Nearly zero magnetic hysteresis • Ratiometric output from supply voltage The Allegro™ ACS724LMA current sensor IC is an economical and precise solution for AC or DC current sensing in automotive, industrial, commercial, and communication systems. The small package is ideal for space-constrained applications while also saving costs due to reduced board area. Typical applications include electric vehicles on-board chargers, motor control, load detection and management, switched-mode power supplies, and overcurrent fault protection. PACKAGE: 16-pin SOICW (suffix MA) The terminals of the conductive path are electrically isolated from the sensor leads (pins 9 through 16). This allows the ACS724LMA current sensor IC to be used in high-side current sense applications without the use of high-side differential amplifiers or other costly isolation techniques. The device consists of a precise, low-offset, linear Hall sensor circuit with a copper conduction path located near the surface of the die. Applied current flowing through this copper conduction path generates a magnetic field which is sensed by the integrated Hall IC and converted into a proportional voltage. The current is sensed differentially in order to reject common-mode fields, improving accuracy in magnetically noisy environments. The inherent device accuracy is optimized through the close proximity of the magnetic field to the Hall transducer. A precise, proportional voltage is provided by the low-offset, chopper-stabilized BiCMOS Hall IC, which includes Allegro’s patented digital temperature compensation, resulting in extremely accurate performance over temperature. The output of the device has a positive slope when an increasing current flows through the primary copper conduction path (from pins 1 through 4, to pins 5 through 8), which is the path used for current sensing. The internal resistance of this conductive path is 0.85 mΩ typical, providing low power loss. Not to scale +IP 1 IP+ 2 IP+ 3 IP+ 4 IP+ ACS724LMA NC GND NC FILTER IP –IP Continued on the next page… 5 IP– 6 IP– 7 IP– 8 IP– VIOUT NC VCC NC 16 15 14 13 12 11 CL 10 9 CBYPASS 0.1 µF CF 1 nF The ACS724LMA outputs an analog signal, VIOUT , that changes proportionally with the bidirectional AC or DC primary sensed current, IP , within the specified measurement range. The FILTER pin can be used to decrease the bandwidth in order to optimize the noise performance. Typical Application ACS724LMA-DS, Rev. 6 MCO-0000322 March 9, 2018 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA DESCRIPTION (continued) The ACS724LMA is provided in a low-profile surface-mount SOIC16 package. The leadframe is plated with 100% matte tin, which is compatible with standard lead (Pb) free printed circuit board assembly processes. Internally, the device is Pb-free. The device is fully calibrated prior to shipment from the factory. SELECTION GUIDE Part Number IPR (A) Sens(Typ) at VCC = 5 V (mV/A) ACS724LMATR-20AB-T ±20 100 ACS724LMATR-30AB-T ±30 66 ACS724LMATR-30AU-T 30 132 ACS724LMATR-50AB-T ±50 40 ACS724LMATR-50AU-T 50 80 ACS724LMATR-65AB-T ±65 30.75 [1] Contact Allegro TA (°C) Packing [1] –40 to 150 Tape and Reel, 1000 pieces per reel for additional packing options. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 2 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS Characteristic Symbol Notes Rating Units Supply Voltage VCC 6 V Reverse Supply Voltage VRCC –0.1 V Output Voltage VIOUT VCC + 0.5 V Reverse Output Voltage VRIOUT Operating Ambient Temperature TA Range L –0.1 V –40 to 150 °C Junction Temperature TJ(max) 165 °C Storage Temperature Tstg –65 to 165 °C ISOLATION CHARACTERISTICS Characteristic Dielectric Surge Strength Test Voltage Dielectric Strength Test Voltage [1] Symbol VSURGE VISO Notes Rating Unit Tested ±5 pulses at 2/minute in compliance to IEC 61000-4-5 1.2 µs (rise) / 50 µs (width). 10000 V Agency type-tested for 60 seconds per UL 60950-1 (edition 2). Production tested at 3000 VRMS for 1 second, in accordance with UL 60950-1 (edition 2). 4800 VRMS 1550 VPK 1097 VRMS or VDC 800 VPK 565 VRMS or VDC Working Voltage for Basic Isolation [1] VWVBI Maximum approved working voltage for basic (single) isolation according to UL 60950-1 (edition 2). Working Voltage for Reinforced Isolation [1] VWVRI Maximum approved working voltage for reinforced isolation according to UL 60950-1 (edition 2). Clearance Dcl Minimum distance through air from IP leads to signal leads. 7.5 mm Creepage Dcr Minimum distance along package body from IP leads to signal leads 8.2 mm [1] Certification pending. THERMAL CHARACTERISTICS Characteristic Symbol Test Conditions [2] Value Units Package Thermal Resistance (Junction to Ambient) RθJA Mounted on the Allegro 85-0738 evaluation board with 700 mm2 of 4 oz. copper on each side, connected to pins 1 and 2, and to pins 3 and 4, with thermal vias connecting the layers. Performance values include the power consumed by the PCB. 23 °C/W Package Thermal Resistance (Junction to Lead) RθJL Mounted on the Allegro ASEK724 evaluation board. 5 °C/W [2] Additional thermal information available on the Allegro website. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 3 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package VCC VCC Master Current Supply To All Subcircuits Programming Control POR Hall Current Drive Temperature Sensor IP+ IP+ IP+ IP+ CBYPASS 0.1 µF EEPROM and Control Logic Offset Control Dynamic Offset Cancellation Sensitivity Control IP– IP– IP– IP– + – RF(int) GND CF + – VIOUT FILTER Functional Block Diagram IP+ 1 16 NC IP+ 2 15 GND Terminal List Table Number Name 1, 2, 3, 4 IP+ Terminals for current being sensed; fused internally Description 5, 6, 7, 8 IP- Terminals for current being sensed; fused internally 9, 16 NC No internal connection; recommended to be left unconnected in order to maintain high creepage IP+ 3 14 NC IP+ 4 13 FILTER IP- 5 12 VIOUT IP- 6 11 NC 10 VCC IP- 7 10 VCC IP- 8 9 NC 11, 14 NC 12 VIOUT Analog output signal 13 FILTER Terminal for external capacitor that sets bandwidth 15 GND Pinout Diagram Device power supply terminal No internal connection; recommened to connect to GND for the best ESD performance Signal ground terminal Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 4 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package COMMON ELECTRICAL CHARACTERISTICS [1]: Valid through the full range of TA = –40°C to 150°C  and VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. Max. Units 4.5 5 5.5 V – 10 14 mA Supply Voltage VCC Supply Current ICC VCC within VCC(min) and VCC(max) Output Capacitance Load CL VIOUT to GND – – 10 nF Output Resistive Load RL VIOUT to GND 4.7 – – kΩ RIP TA = 25°C – 0.85 – mΩ – 1.7 – kΩ Primary Conductor Resistance Internal Filter Resistance [2] Common Mode Field Rejection Ratio RF(INT) Uniform external magnetic field – 40 – dB G1 TA = 25°C – 4.5 – G/A G2 TA = 25°C – 0.5 – G/A SensMATCH TA = 25°C – ±1 – % tr IP = IP(max), TA = 25°C, CL = 1 nF – 3 – μs tpd IP = IP(max), TA = 25°C, CL = 1 nF – 2 – μs tRESPONSE IP = IP(max), TA = 25°C, CL = 1 nF – 4 – μs BW Small signal –3 dB, CL = 1 nF – 120 – kHz Noise Density IND Input-referenced noise density; TA = 25°C, CL = 1 nF – 450 – µARMS/ √Hz Noise IN Input-referenced noise; CF = 4.7 nF, CL = 1 nF, BW = 18 kHz, TA = 25°C – 60 – mARMS Primary Hall Coupling Factor Secondary Hall Coupling Factor Hall Plate Sensitivity Matching Rise Time Propagation Delay Response Time Internal Bandwidth Nonlinearity CMFRR Through full range of IP –1 – 1 % Sensitivity Ratiometry Coefficient SENS_RAT_ COEF VCC = 4.5 to 5.5 V, TA = 25°C – 1.3 – – Zero-Current Output Ratiometry Coefficient QVO_RAT_ COEF VCC = 4.5 to 5.5 V, TA = 25°C – 1 – – Saturation Voltage [3] Power-On Time ELIN VOH RL = 4.7 kΩ, TA = 25°C VCC – 0.5 – – V VOL RL = 4.7 kΩ, TA = 25°C – – 0.5 V tPO Output reaches 90% of steady-state level, TA = 25°C, IP = IPR(max) applied – 80 – μs Shorted Output to Ground Current ISC(GND) TA = 25°C – 3.3 – mA Shorted Output to VCC Current ISC(VCC) TA = 25°C – 45 – mA Device may be operated at higher primary current levels, IP , ambient temperatures, TA , and internal leadframe temperatures, provided the Maximum Junction Temperature, TJ(max), is not exceeded. [2] R F(INT) forms an RC circuit via the FILTER pin. [3] The sensor IC will continue to respond to current beyond the range of I until the high or low saturation voltage; however, the nonlinearity in this region will be worse than P through the rest of the measurement range. [1] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 5 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA xLMATR-20AB PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR –20 – 20 A Sens IPR(min) < IP < IPR(max) – 100 – mV/A VIOUT(Q) Bidirectional; IP = 0 A – VCC × 0.5 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±0.8 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±2.7 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±0.7 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) Sensitivity Error Offset Voltage ESENS VOE TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.6 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±7 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±15 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 6 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA xLMATR-30AB PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR –30 – 30 A Sens IPR(min) < IP < IPR(max) – 66 – mV/A VIOUT(Q) Bidirectional; IP = 0 A – VCC × 0.5 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±0.8 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±2.7 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±0.7 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) Sensitivity Error Offset Voltage ESENS VOE TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.6 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±7 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±15 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 7 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package xLMATR-30AU PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR Sens VIOUT(Q) 0 – 30 A IPR(min) < IP < IPR(max) – 132 – mV/A Unidirectional; IP = 0 A – VCC × 0.1 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±0.7 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±2.5 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±0.7 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) Sensitivity Error Offset Voltage ESENS VOE TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.5 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±7 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±20 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 8 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package xLMATR-50AB PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR –50 – 50 A Sens IPR(min) < IP < IPR(max) – 40 – mV/A VIOUT(Q) Bidirectional; IP = 0 A – VCC × 0.5 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±1 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±1 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS Sensitivity Error Offset Voltage ESENS VOE [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.8 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±5 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±20 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 9 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA xLMATR-50AU PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR Sens VIOUT(Q) 0 – 50 A IPR(min) < IP < IPR(max) – 80 – mV/A Unidirectional; IP = 0 A – VCC × 0.1 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±1 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±1 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS Sensitivity Error Offset Voltage ESENS VOE [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.8 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±5 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±20 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 10 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package xLMATR-65AB PERFORMANCE CHARACTERISTICS: TA Range L, valid at TA = – 40°C to 150°C, VCC = 5 V, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Units NOMINAL PERFORMANCE Current Sensing Range Sensitivity Zero Current Output Voltage IPR –65 – 65 A Sens IPR(min) < IP < IPR(max) – 30.75 – mV/A VIOUT(Q) Bidirectional; IP = 0 A – VCC × 0.5 – V IP = IPR(max), TA = 25°C to 150°C –2.5 ±1 2.5 % IP = IPR(max), TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C, measured at IP = IPR(max) –2 ±1 2 % ACCURACY PERFORMANCE Total Output Error [2] ETOT TOTAL OUTPUT ERROR COMPONENTS Sensitivity Error Offset Voltage ESENS VOE [3]: ETOT = ESENS + 100 × VOE/(Sens × IP) TA = –40°C to 25°C, measured at IP = IPR(max) –5.5 ±2.8 5.5 % IP = 0 A, TA = 25°C to 150°C –15 ±5 15 mV IP = 0 A, TA = –40°C to 25°C –30 ±20 30 mV TA = 25°C to 150°C –3 ±1 3 % TA = –40°C to 25°C –5.5 ±3 5.5 % TA = 25°C to 150°C –3.5 ±1 3.5 % LIFETIME DRIFT CHARACTERISTICS [4] Sensitivity Error Including Lifetime Drift Total Output Error Including Lifetime Drift Offset Error Including Lifetime Drift Esens_drift Etot_drift EOff_Drift TA = –40°C to 25°C –6 ±3 6 % TA = 25°C to 150°C –20 – 20 mV TA = –40°C to 25°C –30 ±20 30 mV Typical values with +/- are 3 sigma values. Percentage of IP , with IP = IPR(max). [3] A single part will not have both the maximum/minimum sensitivity error and maximum/minimum offset voltage, as that would violate the maximum/minimum total output error specification. Also, 3 sigma distribution values are combined by taking the square root of the sum of the squares. See Application Information section. [4] Based on characterization data obtained during AEC-Q100 stress testing. [1] [2] Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 11 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-20AB Offset Voltage vs. Temperature 25 2520 20 2515 15 2510 10 Offset Voltage (mV) VIOUT(Q) (mV) Zero Current Output Voltage vs. Temperature 2525 2505 2500 2495 2490 5 0 -5 -10 2485 -15 2480 -20 2475 -25 -50 0 50 100 150 -50 0 50 104 4 103 3 102 2 Sensitivity Error (%) Sensitivity (mV/A) 105 5 101 100 99 98 -4 -5 50 100 150 -50 0 50 150 Temperature (°C) Temperature (°C) Linearity Error vs. Temperature Total Error vs. Temperature 1.5 5 4 1.0 3 2 0.5 Total Error (%) Linearity Error (%) 100 -2 -3 0.0 -0.5 1 0 -1 -2 -3 -1.0 -1.5 150 0 -1 96 0 100 1 97 -50 150 Sensitivity Error vs. Temperature Sensitivity vs. Temperature 95 100 Temperature (°C) Temperature (°C) -4 -50 0 50 100 -5 150 -50 0 50 Temperature (°C) Temperature (°C) +3 Sigma Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 12 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-30AB Offset Voltage vs. Temperature 20 2515 15 2510 10 Offset Voltage (mV) VIOUT(Q) (mV) Zero Current Output Voltage vs. Temperature 2520 2505 2500 2495 5 0 -5 2490 -10 2485 -15 2480 -20 -50 0 50 100 150 -50 0 4 69 3 68 2 Sensitivity Error (%) Sensitivity (mV/A) 70 67 66 65 0 -1 -2 63 -3 -4 0 50 150 1 64 -50 100 Sensitivity Error vs. Temperature Sensitivity vs. Temperature 62 50 Temperature (°C) Temperature (°C) 100 150 -50 0 50 100 150 100 150 Temperature (°C) Temperature (°C) Linearity Error vs. Temperature Total Error vs. Temperature 1.0 4 3 2 Total Error (%) Linearity Error (%) 0.5 0.0 -0.5 1 0 -1 -2 -3 -1.0 -50 0 50 100 150 -4 Temperature (°C) -50 0 50 Temperature (°C) +3 Sigma Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 13 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-30AU Offset Voltage vs. Temperature Zero Current Output Voltage vs. Temperature 525 20 520 15 515 10 Offset Voltage (mV) VIOUT(Q) (mV) 510 505 500 495 490 0 -5 -10 485 -15 480 475 5 -20 -50 0 50 100 150 -50 0 135 2 Sensitivity Error (%) 134 Sensitivity (mV/A) 150 3 136 133 132 131 130 1 0 -1 -2 129 -3 -50 0 50 100 150 -50 0 50 100 150 100 150 Temperature (°C) Temperature (°C) Linearity Error vs. Temperature Total Error vs. Temperature 1.0 3 2 Total Error (%) 0.5 Linearity Error (%) 100 Sensitivity Error vs. Temperature Sensitivity vs. Temperature 128 50 Temperature (°C) Temperature (°C) 0.0 -0.5 1 0 -1 -2 -1.0 -50 0 50 100 -3 150 Temperature (°C) +3 Sigma -50 0 50 Temperature (°C) Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 14 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-50AB Offset Voltage vs. Temperature Zero Current Output Voltage vs. Temperature 15 2520 2515 10 Offset Voltage (mV) VIOUT(Q) (mV) 2510 2505 2500 2495 5 0 -5 2490 -10 2485 2480 -15 -50 0 50 100 150 -50 0 50 100 150 Temperature (°C) Temperature (°C) Sensitivity Error vs. Temperature Sensitivity vs. Temperature 4 42 3 2 Sensitivity Error (%) Sensitivity (mV/A) 41 41 40 0 -1 -2 40 39 1 -3 -4 -50 0 50 100 150 -50 0 50 100 150 100 150 Temperature (°C) Temperature (°C) Linearity Error vs. Temperature Total Error vs. Temperature 1.0 4 3 2 Total Error (%) Linearity Error (%) 0.5 0.0 -0.5 1 0 -1 -2 -3 -1.0 -50 0 50 100 -4 150 Temperature (°C) +3 Sigma -50 0 50 Temperature (°C) Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 15 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-50AU Offset Voltage vs. Temperature 20 515 15 510 10 Offset Voltage (mV) VIOUT(Q) (mV) Zero Current Output Voltage vs. Temperature 520 505 500 495 5 0 -5 490 -10 485 -15 480 -20 -50 0 50 100 150 -50 0 83 3 82 2 Sensitivity Error (%) Sensitivity (mV/A) 84 4 81 80 79 0 -1 -2 77 -3 -4 0 50 150 1 78 -50 100 Sensitivity Error vs. Temperature Sensitivity vs. Temperature 76 50 Temperature (°C) Temperature (°C) 100 150 -50 0 50 100 150 100 150 Temperature (°C) Temperature (°C) Linearity Error vs. Temperature Total Error vs. Temperature 1.0 4 3 2 Total Error (%) Linearity Error (%) 0.5 0.0 -0.5 1 0 -1 -2 -3 -1.0 -50 0 50 100 -4 150 Temperature (°C) +3 Sigma -50 0 50 Temperature (°C) Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 16 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package CHARACTERISTIC PERFORMANCE xLMATR-65AB Offset Voltage vs. Temperature Zero Current Output Voltage vs. Temperature 15 2520 2515 Offset Voltage (mV) 10 VIOUT(Q) (mV) 2510 2505 2500 2495 2490 2485 2480 5 0 -5 -10 -15 -50 0 50 100 150 -50 0 50 100 150 Temperature (°C) Temperature (°C) Sensitivity Error vs. Temperature Sensitivity vs. Temperature 4 32 Sensitivity Error (%) Sensitivity (mV/A) 3 31 30 2 1 0 -1 -2 -3 29 -4 -50 0 50 100 150 -50 0 50 100 150 100 150 Temperature (°C) Temperature (°C) Nonlinearity vs. Temperature Total Error vs. Temperature 1 4 2 Total Error (%) Nonlinearity (%) 3 0.5 0 -0.5 1 0 -1 -2 -3 -1 -50 0 50 100 -4 150 Temperature (°C) -50 0 50 Temperature (°C) +3 Sigma Average -3 Sigma Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 17 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package DEFINITIONS OF ACCURACY CHARACTERISTICS Sensitivity (Sens) The change in sensor IC output in response to a 1 A change through the primary conductor. The sensitivity is the product of the magnetic coupling factor (G/A) (1 G = 0.1 mT) and the linear IC amplifier gain (mV/G). The linear IC amplifier gain is programmed at the factory to optimize the sensitivity (mV/A) for the full-scale current of the device. sensitivity error, and at relatively low currents, ETOT will be mostly due to Offset Voltage (VOE ). In fact, at IP = 0, ETOT approaches infinity due to the offset. This is illustrated in Figure 1 and Figure 2. Figure 1 shows a distribution of output voltages versus IP at 25°C and across temperature. Figure 2 shows the corresponding ETOT versus IP . Increasing VIOUT (V) Nonlinearity (ELIN) The nonlinearity is a measure of how linear the output of the sensor IC is over the full current measurement range. The nonlinearity is calculated as: { [ ELIN = 1– VIOUT (IPR(max)) – VIOUT(Q) 2 × VIOUT (IPR(max)/2) – VIOUT(Q) [{ Accuracy at 25°C Only IPR(min) –IP (A) Full Scale IP Accuracy at 25°C Only Decreasing VIOUT (V) Accuracy Across Temperature Figure 1: Output Voltage versus Sensed Current +ETOT The deviation of the device output from its ideal quiescent value of 0.5 × VCC (bidirectional) or 0.1 × VCC (unidirectional) due to nonmagnetic causes. To convert this voltage to amperes, divide by the device sensitivity, Sens. Across Temperature 25°C Only Total Output Error (ETOT) The difference between the current measurement from the sensor IC and the actual current (IP), relative to the actual current. This is equivalent to the difference between the ideal output voltage and the actual output voltage, divided by the ideal sensitivity, relative to the current flowing through the primary conduction path: VIOUT_ideal(IP) – VIOUT(IP) Sensideal(IP) × IP IPR(max) 0A Offset Voltage (VOE) ETOT(IP) = +IP (A) VIOUT(Q) Zero Current Output Voltage (VIOUT(Q)) The output of the sensor when the primary current is zero. For a unipolar supply voltage, it nominally remains at 0.5 × VCC for a bidirectional device and 0.1 × VCC for a unidirectional device. For example, in the case of a bidirectional output device, VCC = 5.0 V translates into VIOUT(Q) = 2.50 V. Variation in VIOUT(Q) can be attributed to the resolution of the Allegro linear IC quiescent voltage trim and thermal drift. Accuracy at 25°C Only Ideal VIOUT Accuracy Across Temperature × 100 (%) where VIOUT(IPR(max)) is the output of the sensor IC with the maximum measurement current flowing through it and VIOUT(IPR(max)/2) is the output of the sensor IC with half of the maximum measurement current flowing through it. Accuracy Across Temperature × 100 (%) The Total Output Error incorporates all sources of error and is a function of IP . At relatively high currents, ETOT will be mostly due to –IP +IP –ETOT Figure 2: Total Output Error versus Sensed Current Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 18 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA APPLICATION INFORMATION Estimating Total Error versus Sensed Current The Performance Characteristics tables give distribution (±3 sigma) values for Total Error at IPR(max); however, one often wants to know what error to expect at a particular current. This can be estimated by using the distribution data for the components of Total Error, Sensitivity Error, and Offset Voltage. The ±3 sigma value for Total Error (ETOT) as a function of the sensed current (IP) is estimated as: ETOT(IP) = ESENS 2 ( 2 ) 100 × VOE + Sens × IP Here, ESENS and VOE are the ±3 sigma values for those error terms. If there is an average sensitivity error or average offset voltage, then the average Total Error is estimated as: ETOTAVG (IP) = ESENSAVG + 100 × VOEAVG Sens × IP The resulting total error will be a sum of ETOT and ETOT_AVG. Using these equations and the 3 sigma distributions for Sensitivity Error and Offset Voltage, the Total Error versus sensed current (IP) is shown here for the ACS724LMATR-20AB. As expected, as one goes towards zero current, the error in percent goes towards infinity due to division by zero. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 19 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package DEFINITIONS OF DYNAMIC RESPONSE CHARACTERISTICS Power-On Time (tPO) When the supply is ramped to its operating voltage, the device requires a finite time to power its internal components before responding to an input magnetic field. Power-On Time (tPO) is defined as the time it takes for the output voltage to settle within ±10% of its steady-state value under an applied magnetic field, after the power supply has reached its minimum specified operating voltage (VCC(min)) as shown in the chart at right (refer to Figure 3). V VCC VCC(typ) VCC(min) t1 Response Time (tRESPONSE) The time interval between: a) when the primary current signal reaches 90% of its final value, and b) when the device reaches 90% of its output corresponding to the applied current (refer to Figure 5). tPO t2= time at which output voltage settles within ±10% of its steady state value under an applied magnetic field 0 t Figure 3: Power-On Time (%) 90 Propagation Delay (tpd ) The propagation delay is measured as the time interval between: a) when the primary current signal reaches 20% of its final value, and b) when the device reaches 20% of its output corresponding to the applied current (refer to Figure 4). t2 t1= time at which power supply reaches minimum specified operating voltage Rise Time (tr) The time interval between: a) when the sensor IC reaches 10% of its full-scale value; and b) when it reaches 90% of its fullscale value (refer to Figure 4). The rise time to a step response is used to derive the bandwidth of the current sensor IC, in which ƒ(–3 dB) = 0.35 / tr . Both tr and tRESPONSE are detrimentally affected by eddy current losses observed in the conductive IC ground plane. VIOUT 90% VIOUT Primary Current VIOUT Rise Time, tr 20 10 0 Propagation Delay, tpd t Figure 4: Rise Time and Propagation Delay (%) 90 Primary Current VIOUT Response Time, tRESPONSE 0 t Figure 5: Response Time Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 20 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package NOT TO SCALE All dimensions in millimeters. 15.75 9.54 0.65 1.27 Package Outline Slot in PCB to maintain >8 mm creepage once part is on PCB 2.25 7.25 1.27 3.56 17.27 Current Out Current In 21.51 Perimeter holes for stitching to the other, matching current trace design, layers of the PCB for enhanced thermal capability. Figure 6: High-Isolation PCB Layout Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 21 Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package ACS724LMA PACKAGE OUTLINE DRAWING For Reference Only – Not for Tooling Use (Reference MS-013AA) NOT TO SCALE Dimensions in millimeters Dimensions exclusive of mold flash, gate burrs, and dambar protrusions Exact case and lead configuration at supplier discretion within limits shown 8° 0° 10.30 ±0.20 16 0.33 0.20 7.50 ±0.10 10.30 ±0.33 A 1 1.27 1.40 REF 0.40 2 Branded Face 0.25 BSC SEATING PLANE 16X C 2.65 MAX 0.10 C GAUGE PLANE SEATING PLANE 0.30 0.10 1.27 BSC 0.51 0.31 0.65 1.27 16 NNNNNNN LLLLLLLL 2.25 1 9.50 1 C 2 PCB Layout Reference View B Standard Branding Reference View A Terminal #1 mark area B Branding scale and appearance at supplier discretion N = Device part number L = Assembly Lot Number, first eight characters C Reference land pattern layout (reference IPC7351 SOIC127P600X175-8M); all pads a minimum of 0.20 mm from all adjacent pads; adjust as necessary to meet application process requirements and PCB layout tolerances Figure 7: Package MA, 16-Pin SOICW Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 22 ACS724LMA Automotive Grade, High-Accuracy, Hall-Effect-Based Current Sensor IC with Common-Mode Field Rejection in High-Isolation SOIC16 Package Revision History Number Date – October 16, 2017 1 October 31, 2017 Description Initial release Updated Lifetime Drift Characteristics (pages 6-10) Added Sensitivity Ratiometry Coefficient and Zero-Current Output Ratiometry Coefficient to Electrical Characteristics table (page 5). 2 November 27, 2017 3 January 8, 2018 Corrected certification status (page 1 and 3) 4 January 12, 2018 Added Dielectric Surge Strength Test Voltage to Isolation Characteristics table (page 3). 5 January 22, 2018 Added Common Mode Field Rejection Ratio characteristic (page 5). 6 March 9, 2018 Added -65AB part option. Copyright ©2018, Allegro MicroSystems, LLC Allegro MicroSystems, LLC reserves the right to make, from time to time, such departures from the detail specifications as may be required to permit improvements in the performance, reliability, or manufacturability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current. Allegro’s products are not to be used in any devices or systems, including but not limited to life support devices or systems, in which a failure of Allegro’s product can reasonably be expected to cause bodily harm. The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, LLC assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. For the latest version of this document, visit our website: www.allegromicro.com Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 23