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MLX91220KDC-ABR-050-SP

MLX91220KDC-ABR-050-SP

  • 厂商:

    MELEXIS(迈来芯)

  • 封装:

    SOIC-8

  • 描述:

    MLX91220KDC-ABR-050-SP

  • 数据手册
  • 价格&库存
MLX91220KDC-ABR-050-SP 数据手册
MLX91220 Integrated Current Sensor IC Datasheet Features and Benefits Applications ▪ Factory trimmed AC and DC current sensor ▪ AC and DC Chargers ▪ Analog ratiometric or fixed output voltage ▪ Electric Drives ▪ Combining sensing element, signal conditioning & isolation in SOIC package ▪ DCDC converters ▪ Solar ▪ No application programming required ▪ Power Supplies ▪ High speed sensing ▪ Demand/Load control ▪ DC to 300kHz bandwidth ▪ 2µs response time ▪ Robust against external magnetic fields ▪ No magnetic hysteresis ▪ Double overcurrent detection (SOIC-16) ▪ Low ohmic losses of integrated conductor ▪ ▪ 1.09mΩ SOIC-8 / 0.89mΩ SOIC-16 SOIC-8 narrow body and SOIC-16 wide body package, RoHS compliant ▪ Lead free component, suitable for lead free soldering profile up to 260°C, MSL3 ▪ Rated voltage isolation ▪ 2.4kVRMS for SOIC-8 ▪ 4.8kVRMS for SOIC-16 Description The MLX91220 is an Isolated Integrated Current Sensor that senses the current flowing through the low impedance leadframe of the SOIC package. By virtue of fixing the current conductor position with respect to the monolithic CMOS sensor, a fully integrated Hall-effect current sensor is obtained, that is factory calibrated. Inside the package, the magnetic flux density generated by the current flow is sensed differentially by two sets of Hall plates. As a result the influence of external disturbing fields is minimized in the fast analog front-end. The residual signal is amplified to provide a high-speed linear analog output voltage. The close proximity of the Hall plates to the current conductor ensures a high signal-to-noise ratio and an accurate signal over temperature. Even with this miniaturization, high voltage isolation ratings are still maintained between the primary and the opposing secondary side. SOIC-8 SOIC-16 IEC/UL 62368-1:2014 (2nd edition) MLX91220 Integrated Current Sensor IC Datasheet Contents Features and Benefits................................................................................................................................ 1 Applications............................................................................................................................................... 1 Description ................................................................................................................................................ 1 Contents.................................................................................................................................................... 2 1. Ordering Information ............................................................................................................................ 4 2. Functional Diagram ............................................................................................................................... 6 3. Glossary of Terms .................................................................................................................................. 8 4. Pinout .................................................................................................................................................... 9 5. Absolute Maximum Ratings ................................................................................................................. 10 6. MLX91220 General Electrical Specifications ........................................................................................ 11 7. MLX91220 General Current Specifications .......................................................................................... 12 8. MLX91220 Voltage Isolation Specifications ......................................................................................... 13 9. MLX91220 Timing Specifications ......................................................................................................... 14 10. MLX91220 Accuracy Specifications.................................................................................................... 15 10.1. Definitions ....................................................................................................................................... 15 10.2. MLX91220KDx-ABF-117 Specifications.......................................................................................... 17 10.3. MLX91220KDx-ABR-020 Specifications ......................................................................................... 18 10.4. MLX91220KDx-ABR-025 Specifications ......................................................................................... 19 10.5. MLX91220KDx-ABF-025 Specifications.......................................................................................... 20 10.6. MLX91220KDx-ABR-030 Specifications ......................................................................................... 21 10.7. MLX91220KDx-ABR-050 Specifications ......................................................................................... 22 10.8. MLX91220KDx-ABF-050 Specifications.......................................................................................... 23 10.9. MLX91220KDx-AUF-050 Specifications ......................................................................................... 24 10.10. MLX91220KDx-ABR-075 Specifications ....................................................................................... 25 10.11. MLX91220KDx-ABF-075 Specifications ....................................................................................... 26 11. MLX91220 Overcurrent Detection ..................................................................................................... 27 11.1. General ............................................................................................................................................ 27 11.2. Electrical Specifications .................................................................................................................. 28 11.3. Internal Overcurrent Detection Principle ...................................................................................... 28 11.4. External Overcurrent Detection Principle ..................................................................................... 29 DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 2 of 38 MLX91220 Integrated Current Sensor IC Datasheet 12. Recommended Application Diagrams ................................................................................................ 30 12.1. Resistor and Capacitor Values........................................................................................................ 30 12.2. SOIC8 Application Diagram ............................................................................................................ 31 12.3. SOIC16 Application Diagram .......................................................................................................... 31 12.3.1. OCD functions not used ........................................................................................................... 32 13. Standard information regarding manufacturability with different soldering processes ..................... 33 14. ESD Precautions................................................................................................................................. 34 15. Package Information.......................................................................................................................... 35 15.1. SOIC-8 150mils - Package Dimensions........................................................................................... 35 15.2. SOIC-16 300mils - Package Dimensions......................................................................................... 36 15.3. Packaging marks ............................................................................................................................. 37 16. Contact .............................................................................................................................................. 37 17. Disclaimer .......................................................................................................................................... 38 DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 3 of 38 MLX91220 Integrated Current Sensor IC Datasheet 1. Ordering Information Product Code Package Current Measurement Range Output type Sensitivity OCD level MLX91220KDC-ABF-025-RE SOIC8 25 A Fixed, Bipolar 80 mV/A MLX91220KDC-ABF-050-RE SOIC8 50 A Fixed, Bipolar 40 mV/A MLX91220KDC-AUF-050-RE SOIC8 50 A Fixed, Unipolar 80 mV/A MLX91220KDC-ABR-020-RE SOIC8 20 A Ratiometric, Bipolar 100 mV/A MLX91220KDC-ABR-025-RE SOIC8 25 A Ratiometric, Bipolar 80 mV/A MLX91220KDC-ABR-030-RE SOIC8 30 A Ratiometric, Bipolar 66 mV/A MLX91220KDC-ABR-050-RE SOIC8 50 A Ratiometric, Bipolar 40 mV/A MLX91220KDF-ABF-117-RE SOIC16 17 A Fixed, Bipolar 120 mV/A 14.8 A MLX91220KDF-ABF-025-RE SOIC16 25 A Fixed, Bipolar 80 mV/A 27.8 A MLX91220KDF-ABF-050-RE SOIC16 50 A Fixed, Bipolar 40 mV/A 55.6 A MLX91220KDF-AUF-050-RE SOIC16 50 A Fixed, Unipolar 80 mV/A 55 A MLX91220KDF-ABF-075-RE SOIC16 75 A Fixed, Bipolar 26.7 mV/A 83.4 A MLX91220KDF-ABR-075-RE SOIC16 75 A Ratiometric, Bipolar 26.7 mV/A 83.4 A MLX91220KDF-ABR-025-RE SOIC16 25 A Ratiometric, Bipolar 80 mV/A 27.8 A MLX91220KDF-ABR-050-RE SOIC16 50 A Ratiometric, Bipolar 40 mV/A 55.6 A Table 1: Ordering information DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 4 of 38 MLX91220 Integrated Current Sensor IC Datasheet Legend: Temperature Code: K: from -40°C to 125°C ambient temperature Package Code: “DC” for SOIC-8 NB (Narrow Body – 150mils) package “DF” for SOIC-16 WB (Wide Body – 300mils) package Option Code: Axx-xxx: die version xBx-xxx: “B” for bipolar(1) and “U” for unipolar xxF-xxx: “F” for fixed mode output and “R” for ratiometric output xxx-0xx: “0” for default trimming xxx-x50: “50” for Full Scale current measurement (corresponding to 2V excursion from VOQ in bipolar case, and 4V excursion in unipolar case) Packing Form: “RE” for Reel Ordering Example: MLX91220KDC-ABF-050-RE Table 2: Legend (1) Bipolar output indicates that the sensor provides a symmetrical output around the 0A point which is set at half the output voltage (50% V DD) in case of ratiometric mode, and V REF equals 50%V DD in case of fixed mode. Both designs imply sensing of positive and negative currents. Melexis is continuously expanding its product portfolio by adding new option codes to better meet the needs of our customer’s applications. This table is being updated frequently, please go to the Melexis website to download the latest version of this datasheet. For custom transfer characteristics, please contact your local Melexis Sales representative or distributor. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 5 of 38 MLX91220 Integrated Current Sensor IC Datasheet 2. Functional Diagram Figure 1: Functional Diagram for MLX91220 The sensor can be used in 2 different modes, depending on the application. Both modes rely on the output voltage of the sensor being proportional to the flow of current, but the difference resides in the signal reconstruction. Ratiometric Mode Figure 2: Schematic of ratiometric mode No matter if the VDD line is at 5V or deviating +/-10%, the ADC code for a given measured current will always be the same as the ADC is supplied by the same voltage as the sensor. The sensor has a sensitivity expressed in %VDD/A. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 6 of 38 MLX91220 Integrated Current Sensor IC Datasheet Differential or Fixed Mode (1) Figure 3: Schemaic of fixed mode In this particular case the ADC does not necessarily share the same supply voltage with the sensor. For this reason, the sensor is calibrated with an absolute sensitivity regardless of the actual supply voltage. The output signal can be reconstructed by taking the difference between the output and the reference voltage from the IC. The ADC gets these two signals as inputs for establishing the sensed current accurately, and is not influenced by the supply voltage differences between both sensor and microcontroller, if applicable. Parameter Ratiometric Mode Differential or Fixed Mode VOUT [%VDD] VOUT - VREF [V] Example: output is 2.5V when supply is 5V → output is then 50%VDD. If the supply (VDD) increases with 5% to 5.25V the sensor output will (for the same measured input current) scale proportionally with the supply voltage, becoming 2.625V, but as a percentage (i.e. ratiometrically seen) it remains at 50% of VDD. Example: output is 2.501V and VREF is 2.501V when supply is 5V. When the supply voltage is increasing to 5.1V due to supply system variation, the sensor will still maintain the same “fixed” output values VOUT and VREF. Offset VOUT[0A] = 50 [%VDD] (factory trimmed) VREF = 2.5 [V] (factory trimmed) VOUT[0A]-VREF = 0 [V] Offset ratiometric Yes No Sensitivity [%VDD/A] [mV/A] Sensitivity ratiometric Yes No Measured Current (VOUT-VOUT[0A]) / Sensitivity (VOUT-VREF) / Sensitivity Output Signal Table 3: Parameters of differential and fixed modes (1) More information can be found in Application Note AN91220_ReferencePin on www.melexis.com DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 7 of 38 MLX91220 Integrated Current Sensor IC Datasheet 3. Glossary of Terms Gauss (G), Tesla (T) Units for the magnetic flux density - 1 mT = 10 G TC Temperature Coefficient (in ppm/°C) NC Not Connected IP Integrated Primary ASP Analog Signal Processing DSP Digital Signal Processing AC Alternate Current DC Direct Current EMC Electro-Magnetic Compatibility FS Full Scale OCD OverCurrent Detection Table 4: Glossary of Terms DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 8 of 38 MLX91220 Integrated Current Sensor IC Datasheet 4. Pinout Figure 4 SOIC-16 and SOIC-8 pinouts PIN SOIC-8 SOIC-16 Pin Function IP+ Primary Current Path Input IP- Primary Current Path Output 9 VSS Ground Voltage 10 VREF Reference Voltage 11 NC Not connected 12 VOUT Output Voltage 13 OCDEXT External Overcurrent detection 14 VDD Supply Voltage 15 VOCEXT External Overcurrent threshold voltage 16 OCDINT Internal Overcurrent Detection 1 2 3 Pin Function IP+ Primary Current Path Input IP- Primary Current Path Output 5 VSS Ground Voltage 6 VREF Reference Voltage 7 VOUT Output Voltage 8 VDD Supply Voltage 4 Table 5: Pinout definition For optimal EMC behavior, it is recommended to connect the unused pin (NC) to VSS (see Chapter 12). DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 9 of 38 MLX91220 Integrated Current Sensor IC Datasheet 5. Absolute Maximum Ratings Exceeding the absolute maximum ratings may cause permanent damage. Exposure to absolute maximumrated conditions for extended periods may affect device reliability Parameter Value Positive Supply Voltage (overvoltage) +8V Positive Supply Voltage (maintaining application mode) + 6.5 V Reverse Supply Voltage - 0.3 V Positive Pin Voltage(1) VDD + 0.3 V Output Sourcing Current + 25 mA Reverse Pin Voltage(1) - 0.3 V Output Sinking Current +50 mA Operating Ambient Temperature Range, TA - 40°C to + 125°C Storage Temperature Range, TS - 40°C to + 150°C Maximum Junction Temperature, TJ (2) + 165°C Table 6: Absolute maximum ratings (1) Except for V DD and VSS (2) For more information on how the junction temperature relates to the applied current and ambient temperature range, please refer to section 7. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 10 of 38 MLX91220 Integrated Current Sensor IC Datasheet 6. MLX91220 General Electrical Specifications DC Operating Parameters at VDD = 5V (unless otherwise specified) and for T A as specified by the Temperature suffix (K). Parameter Symbol Test Conditions Min Typ Max Units IDD Without RLOAD, in application mode 20 26 mA VOUT output resistance ROUT VOUT = 50%VDD, ILOAD = 10 mA 1 5  Voltage Reference Output Resistance RREF VREF = 50%VDD, ISINK = 5 mA or ISOURCE = 0.2 mA 120 200 333  Output Capacitive Load CLOAD Output amplifier stability is optimized for this typical value 0 4.7 6 nF Common Mode Field Sensitivity(1) CMFS Output Short Circuit Current ISHORT Output shorted to VDD or VSS Permanent Output Leakage current ILEAK High impedance mode, TA=125°C TJ < 150°C Supply Current Output Voltage Linear Swing VOUT_LSW For SOIC16 0.4 mA/G For SOIC8 0.4 mA/G VDD > 4.6 V for Fixed Mode versions 2 10 180 mA 20 µA 90 %VDD Table 7: General electrical specifications (1) Common Mode Field Sensitivity expresses the sensor's susceptibility to a homogenously applied field perpendicular to the package surface. The differential measurement cancels out such common mode magnetic fields, but due to the matching between both Hall plate clusters flanking the current conductor, this is not perfect. This parameter expresses the mA output error as a result of such 1 mT applied field. It has to be noted, that ma gnetic fields generated by nearby conductors are not homogenous but introduce gradients. More information in this regard can be found in Application Note AN91220_ExternalFieldImmunity on www.melexis.com DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 11 of 38 MLX91220 Integrated Current Sensor IC Datasheet 7. MLX91220 General Current Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified) and for T A as specified by the Temperature suffix (K). Parameter Symbol Test Conditions Electrical Resistance of the Primary Current Path RIP_SOIC8 RIP_SOIC16 TA=25°C 1.09 0.89 mΩ mΩ IPMAX Option Code ABx-117 Option Code ABx-025 Option Code ABx-030 Option Code ABx-050 Option Code AUF-050 Option Code ABx-075 16.7 25 30 50 50 75 A A A A A A IPNOM Option Code ABx-117 Option Code ABx-025 Option Code ABx-030 Option Code ABx-050 Option Code AUF-050 Option Code ABx-075 6.7 10 12 20 20 30 A A A A A A Measurement Range Nominal Current Linearity Error Current Capability(1) Min Typ Max Units NL Current in range IPNOM, TA=25°C ±0.3 %FS NL Current in range IPMAX, TA=25°C ±0.6 %FS IPC85_SOIC8 IPC25_SOIC8 Continuous, TA=-40 to 85°C Continuous, TA=25°C ±25 ±40 A A IPC85_SOIC16 IPC25_SOIC16 Continuous, TA=-40 to 85°C Continuous, TA=25°C ±30 ±45 A A Table 8: General current specifications (1) Current capability based on the reference Melexis PCB made of 2x 105 µm copper layer without any forced air or other form of cooling. Continuous or RMS current ranges in application are typically higher than this. More information can be found in Application Notes AN91220_FuseCurrent Capability and AN91220_ThermalManagement on www.melexis.com. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 12 of 38 MLX91220 Integrated Current Sensor IC Datasheet 8. MLX91220 Voltage Isolation Specifications Parameter Dielectric Strength Test Voltage (1) (2) Symbol Test Conditions VISO_SOIC8 IEC 62368-1:2014 (second edition) VISO_SOIC16 DCL_SOIC8 Clearance (primary to secondary) DCR_SOIC8 DCR_SOIC16 Comparative tracking index Working Voltage for Basic Isolation Shortest path along body 2400 VRMS 4800 VRMS 4 mm 8.1 mm 3.6 mm 7.1 mm 600 CTI VWV_SOIC8 Units Shortest distance through air DCL_SOIC16 Creepage (primary to secondary) Rating 500 VRMS IEC 62368-1:2014 (2nd edition) 707 VDC Based on Pollution degree 2, Material Group II 1000 VRMS 1414 VDC (3) VWV_SOIC16 Table 9: Voltage isolation specifications (1) Agency type tested, measured between IP (pin 1-4 on SOIC8, pin 1-8 on SOIC16) and Secondary side (pin 5-8 on SOIC8, pin 9-16 on SOIC16). (2) Melexis performs routine production-line tests, for all SOIC8 & SOIC16 devices produced. (3) Tension de service pour une isolation principale spécifiée pour un Degré de Pollution 2 et un groupe de matériaux II selon la norme IEC/UL-62368-1:2014 (2ème édition) DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 13 of 38 MLX91220 Integrated Current Sensor IC Datasheet 9. MLX91220 Timing Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified) and for T A as specified by the Temperature suffix (K). Parameter Symbol Test Conditions Step Response Time TRESP Delay between the input signal reaching 90% and the output reaching 90% (see Figure 5) Bandwidth BW -3dB, TA =25°C Power on Delay(1) TPOD VREF capacitor = 47nF Min Typ Max Units 2 μs 300 kHz 0.6 ms Table 10: Timing specifications in, Vout 100% Response time 90% time 1 µs Figure 5: Response Time definition (1) During the Power-on delay, the output will remain within the 10% fault band at all time. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 14 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10. MLX91220 Accuracy Specifications 10.1. Definitions Thermal Reference Drift The thermal reference drift is the variation of the reference voltage (V REF) over temperature. It is expressed in ppm/°C. + ΔT𝑉𝑅𝐸𝐹 = ( 𝑉𝑟𝑒𝑓[125℃] 1 − 1) . . 106 𝑉𝑟𝑒𝑓[35℃] (125 − 35) − ΔT𝑉𝑅𝐸𝐹 = ( 𝑉𝑟𝑒𝑓[−40℃] 1 − 1) . . 106 𝑉𝑟𝑒𝑓[35℃] (−40 − 35) Voltage Output Quiescent VOQ corresponds to the output when no current is flowing through the MLX91220 at T A=25°C. Thermal Offset Drift ΔTVOQ corresponds to variation of V OQ in temperature. Sensitivity The sensitivity is the ratio between the output of the MLX91220 and the input current. For ratiometric devices, as the output will scale with the supply, sensitivity is expressed as [%V DD]/A. For fixed devices, the output does not vary with the V DD, sensitivity is thus expressed as mV/A. Linearity Error The linearity error is the deviation of the output from the expected linear behaviour. To obtain the linearity error, the current is swept from -𝐼𝑃𝑀 to 𝐼𝑃𝑀 . To decorrelate the thermal drift from the linearity error, the junction temperature should be fixed below 50°C. 𝑁𝐿 = 𝑉𝑜𝑢𝑡 [𝐼] − 𝐵𝐸𝑆𝑇𝐹𝐼𝑇(𝑉𝑜𝑢𝑡 [𝐼]) . 100 [%𝐹𝑆] 𝑉𝑜𝑢𝑡 [𝐼𝑃𝑀 ] − 𝑉𝑜𝑢𝑡 [−𝐼𝑃𝑀 ] DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 15 of 38 MLX91220 Integrated Current Sensor IC Datasheet Ratiometry Offset and Sensitivity Error Ratiometric Mode In Ratiometric mode, V OUT and VREF are scaled with the supply voltage. 𝑉𝐷𝐷𝑛𝑜𝑚 = 5𝑉 Ratiometric VOQ Error: ΔR 𝑉𝑂𝑄 = 𝑉𝑂𝑄 [𝑉𝐷𝐷𝑛𝑜𝑚 ] − 𝑉𝑂𝑄 [𝑉𝐷𝐷𝑛𝑜𝑚 ± 10%]. 𝑉𝐷𝐷𝑛𝑜𝑚 [𝑚𝑉] 𝑉𝐷𝐷𝑛𝑜𝑚 ± 10% Ratiometric Sensitivity Error: ΔR𝑆 = 100. (1 − 𝑆[𝑉𝐷𝐷𝑛𝑜𝑚 ±10%] 𝑉 . 𝑉 𝐷𝐷𝑛𝑜𝑚 ) 𝑆[𝑉𝐷𝐷𝑛𝑜𝑚 ] 𝐷𝐷𝑛𝑜𝑚 ±10% [%] Fixed Mode In Fixed mode, V OUT and VREF are not scaled with the supply voltage. Ideally, they do not vary. 𝑉𝐷𝐷𝑛𝑜𝑚 = 5𝑉 Non-Ratiometric VOQ Error: ΔR 𝑉𝑂𝑄 = 𝑉𝑂𝑄 [𝑉𝐷𝐷𝑛𝑜𝑚 ± 10%] − 𝑉𝑂𝑄 [𝑉𝐷𝐷𝑛𝑜𝑚 ] [𝑚𝑉] Non-Ratiometric Sensitivity Error: ΔR𝑆 = ( 𝑆[𝑉𝐷𝐷𝑛𝑜𝑚 ± 10%] − 1) . 100 [%] 𝑆[𝑉𝐷𝐷𝑛𝑜𝑚 ] DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 16 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.2. MLX91220KDx-ABF-117 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM For VDD > 4.6 V -16.7 Nominal Supply Voltage VDD For I such as VOUT < VDD-0.1 V 4.5 Voltage Reference VREF TA=25°C. No resistive load on Vref pin 2.48 Thermal Reference Drift Voltage Output Quiescent ΔTVREF VOQ No current flowing through IP, VOUT-VREF, TA=25°C No resistive load on VOUT and VREF ΔRVOQ TA=25°C and for ±10% VDD Thermal Offset Drift ΔTVOQ Referred to TA=25°C, IP = 0A Lifetime Offset Drift ΔLVOQ S Max Units 16.7 A 5 5.5 V 2.5 2.52 V ±150 ppm/°C -7.5 -63 7.5 63 mV mA -5 5 mV ±10 ±84 mV mA Variation versus 25°C Ratiometry Offset Error Sensitivity Typ ±5 ±42 ±2 At TA=25°C For Tj < 50 °C -1 118.8 mV 1 121.2 % mV/A 0.6 % ±1 ±1.5 %S ±1 ±2 %S 120 Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD -0.6 Thermal Sensitivity Drift ΔTS Current range IPMAX Sensitivity Drift over lifetime ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 179 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 116 mARMS OCDINT Threshold Current(1) IOCD 14.8 A OCDINT Accuracy(1) εIOCD 9.7 17.6 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 6 % Table 11: MLX91220KDx-ABF-117 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 17 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.3. MLX91220KDx-ABR-020 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified),for T A as specified by the Temperature suffix (K) and for Tj < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM -20 Nominal Supply Voltage VDD 4.5 Voltage Output Quiescent VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ 5 Max Units 20 A 5.5 V No current flowing through IP, VOUT –VDD/2, TA=25°C No resistive load on VOUT and VREF -7.5 -75 7.5 75 mV mA TA=25°C and for ±10% VDD -10 10 mV ±7.5 ±75 mV mA Referred to TA=25°C, IP = 0A ±5 ±50 ±2 At TA=25°C For Tj < 50 °C Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Sensitivity Drift over lifetime ΔLS Output Noise Spectral Density NSD Output RMS Noise NRMS OCDINT Threshold Current(1) IOCD OCDINT Accuracy(1) εIOCD OCD EXT threshold error(1) εEOCD -1 99 100 mV 1 101 ±0.5 IP = 0 A, TA=25°C within BW = 1 … 100kHz % ±1 ±1.5 %S ±1 ±2 %S 186 IP = 0 A, TA=25°C BW = 300kHz µA/√Hz mARMS 120 TA=25°C TA=-40°C to 85°C -6 % mV/A 22.2 A 8 12 % % 6 % Table 12: MLX91220KDx-ABR-020 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 18 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.4. MLX91220KDx-ABR-025 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM -25 Nominal Supply Voltage VDD 4.5 Voltage Output Quiescent VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ 5 Max Units 25 A 5.5 V No current flowing through IP, VOUT –VDD/2, TA=25°C No resistive load on VOUT and VREF -7.5 -94 7.5 94 mV mA TA=25°C and for ±10% VDD -10 10 mV ±7.5 ±94 mV mA Referred to TA=25°C, IP = 0A ±5 ±63 ±2 At TA=25°C For Tj < 50 °C -1 79.2 80 mV 1 80.8 ±0.5 % mV/A Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 190 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 129 mARMS OCDINT Threshold Current(1) IOCD 27.8 A OCDINT Accuracy(1) εIOCD 7.5 11.5 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 % ±1 ±1.5 %S ±1 ±2 %S 6 % Table 13: MLX91220KDx-ABR-025 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 19 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.5. MLX91220KDx-ABF-025 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM For VDD > 4.6 V -25 Nominal Supply Voltage VDD For I such as VOUT < VDD-0.1 V 4.5 Voltage Reference VREF TA=25°C. No resistive load on Vref pin 2.48 Thermal Reference Drift Voltage Output Quiescent ΔTVREF VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ Max Units 25 A 5 5.5 V 2.5 2.52 V ±150 ppm/°C -7.5 -94 7.5 94 mV mA -5 5 mV ±7.5 ±94 mV mA Variation versus 25°C No current flowing through IP, VOUT-VREF, TA=25°C No resistive load on VOUT and VREF TA=25°C and for ±10% VDD Referred to TA=25°C, IP = 0A ±5 ±63 ±2 At TA=25°C For Tj < 50 °C -1 79.2 -0.6 mV 1 80.8 % mV/A 0.6 % ±1 ±1.5 %S ±1 ±2 %S 80 Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 190 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 129 mARMS OCDINT Threshold Current(1) IOCD 27.8 A OCDINT Accuracy(1) εIOCD 7.5 11.5 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 6 % Table 14: MLX91220KDx-ABF-025 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 20 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.6. MLX91220KDx-ABR-030 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM -30 Nominal Supply Voltage VDD 4.5 Voltage Output Quiescent VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ 5 Max Units 30 A 5.5 V No current flowing through IP, VOUT –VDD/2, TA=25°C No resistive load on VOUT and VREF -7.5 -112 7.5 112 mV mA TA=25°C and for ±10% VDD -10 10 mV ±7.5 ±112 mV mA Referred to TA=25°C, IP = 0A ±5 ±75 ±2 At TA=25°C For Tj < 50 °C -1 66.0 66.7 mV 1 67.4 ±0.5 % mV/A Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 197 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 131 mARMS OCDINT Threshold Current(1) IOCD 33.7 A OCDINT Accuracy(1) εIOCD 7 11 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 % ±1 ±1.5 %S ±1 ±2 %S 6 % Table 15: MLX91220KDx-ABR-030 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 21 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.7. MLX91220KDx-ABR-050 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM -50 Nominal Supply Voltage VDD 4.5 Voltage Output Quiescent VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ 5 Max Units 50 A 5.5 V No current flowing through IP, VOUT –VDD/2, TA=25°C No resistive load on VOUT and VREF -7.5 -188 7.5 188 mV mA TA=25°C and for ±10% VDD -10 10 mV ±7.5 ±188 mV mA Referred to TA=25°C, IP = 0A ±5 ±125 ±2 At TA=25°C For Tj < 50 °C -1 39.6 40 mV 1 40.4 ±0.5 % mV/A Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 186 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 126 mARMS OCDINT Threshold Current(1) IOCD 55.6 A OCDINT Accuracy(1) εIOCD 4.2 6.2 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 % ±1 ±1.5 %S ±1 ±2 %S 6 % Table 16: MLX91220KDx-ABR-050 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 22 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.8. MLX91220KDx-ABF-050 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM For VDD > 4.6 V -50 Nominal Supply Voltage VDD For I such as VOUT < VDD-0.1 V 4.5 Voltage Reference VREF TA=25°C. No resistive load on Vref pin 2.48 Thermal Reference Drift Voltage Output Quiescent ΔTVREF VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ Max Units 50 A 5 5.5 V 2.5 2.52 V ±150 ppm/°C -7.5 -188 7.5 188 mV mA -5 5 mV ±7.5 ±188 mV mA Variation versus 25°C No current flowing through IP, VOUT-VREF,TA=25°C No resistive load on VOUT and VREF TA=25°C and for ±10% VDD Referred to TA=25°C, IP = 0A ±5 ±125 ±2 At TA=25°C For Tj < 50 °C -1 39.6 -0.6 mV 1 40.4 % mV/A 0.6 % ±1 ±1.5 %S ±1 ±2 %S 40 Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 186 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 126 mARMS OCDINT Threshold Current(1) IOCD 55.6 A OCDINT Accuracy(1) εIOCD 4.2 6.2 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 6 % Table 17: MLX91220KDx-ABF-050 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 23 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.9. MLX91220KDx-AUF-050 Specifications DC Operating Parameters at VDD = 5V (unless otherwise specified), for T A as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM For VDD > 4.6 V 0 Nominal Supply Voltage VDD For I such as VOUT < VDD-0.1 V 4.5 Voltage Reference VREF TA=25°C. No resistive load on Vref pin 0.495 Thermal Reference Drift Voltage Output Quiescent ΔTVREF VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ Max Units 50 A 5 5.5 V 0.5 0.505 V ±250 ppm/°C -7.5 -188 7.5 188 mV mA -5 5 mV ±7.5 ±188 mV mA Variation versus 25°C No current flowing through IP, VOUT-VREF,TA=25°C No resistive load on VOUT and VREF TA=25°C and for ±10% VDD Referred to TA=25°C, IP = 0A ±5 ±125 ±2 At TA=25°C For Tj < 50 °C -1 79.2 -0.6 mV 1 80.8 % mV/A 0.6 % ±1 ±1.5 %S ±1 ±2 %S 80 Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 190 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 129 mARMS OCDINT Threshold Current(1) IOCD 55 A 10 10 % % OCDINT Accuracy(1) εIOCD OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 6 % Table 18: MLX91220KDx-AUF-050 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 24 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.10. MLX91220KDx-ABR-075 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified),for T A as specified by the Temperature suffix (K) and for Tj < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM -75 Nominal Supply Voltage VDD 4.5 Voltage Output Quiescent VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ 5 Max Units 75 A 5.5 V No current flowing through IP, VOUT –VDD/2, TA=25°C No resistive load on VOUT and VREF -7.5 -281 7.5 281 mV mA TA=25°C and for ±10% VDD -10 10 mV ±7.5 ±281 mV mA Referred to TA=25°C, IP = 0A ±5 ±187 ±2 At TA=25°C For Tj < 50 °C -1 26.4 26.7 mV 1 27 ±0.5 % mV/A Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Sensitivity Drift over lifetime ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 207 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 143 mARMS OCDINT Threshold Current(1) IOCD 83.4 A OCDINT Accuracy(1) εIOCD 4 6 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 % ±1 ±1.5 %S ±1 ±2 %S 6 % Table 19: MLX91220KDx-ABR-075 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 25 of 38 MLX91220 Integrated Current Sensor IC Datasheet 10.11. MLX91220KDx-ABF-075 Specifications DC Operating Parameters at V DD = 5V (unless otherwise specified), for TA as specified by the Temperature suffix (K) and for TJ < 150 °C. Parameter Symbol Test Conditions Min Primary current IPM For VDD > 4.6 V -75 Nominal Supply Voltage VDD For I such as VOUT < VDD-0.1 V 4.5 Voltage Reference VREF TA=25°C. No resistive load on Vref pin 2.48 Thermal Reference Drift Voltage Output Quiescent ΔTVREF VOQ Ratiometry Offset Error ΔRVOQ Thermal Offset Drift ΔTVOQ Lifetime Offset Drift ΔLVOQ Sensitivity S Typ Max Units 75 A 5 5.5 V 2.5 2.52 V ±150 ppm/°C -7.5 -281 7.5 281 mV mA -5 5 mV ±7.5 ±281 mV mA Variation versus 25°C No current flowing through IP, VOUT-VREF,TA=25°C No resistive load on VOUT and VREF TA=25°C and for ±10% VDD Referred to TA=25°C, IP = 0A ±5 ±187 ±2 At TA=25°C For Tj < 50 °C -1 26.4 -0.6 mV 1 27 % mV/A 0.6 % ±1 ±1.5 %S ±1 ±2 %S 26.7 Ratiometry Sensitivity Error ΔRS TA=25°C and for ±10% VDD Thermal Sensitivity Drift ΔTS Current range IPMAX Lifetime Sensitivity Drift ΔLS Output Noise Spectral Density NSD IP = 0 A, TA=25°C within BW = 1 … 100kHz 207 µA/√Hz Output RMS Noise NRMS IP = 0 A, TA=25°C BW = 300kHz 143 mARMS OCDINT Threshold Current(1) IOCD 83.4 A OCDINT Accuracy(1) εIOCD 4 6 % % OCD EXT threshold error(1) εEOCD TA=25°C TA=-40°C to 85°C -6 6 % Table 20: MLX91220KDx-ABF-075 specifications (1) For SOIC16 version DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 26 of 38 MLX91220 Integrated Current Sensor IC Datasheet 11. MLX91220 Overcurrent Detection 11.1. General The MLX91220 provides two OCD features that allow detecting overcurrent applied on the integrated sensor primary. In case of OCD detection, the OCD INT or OCD EXT is pulled to ground. During normal operation the OCD voltage remains at VDD. This OCD feature is available for SOIC16 version only. The two OCD functions are able to react to an overcurrent event within few us of response time. To avoid false alarm, the overcurrent has to be maintained at least 1µs for the detection to occur. After detection by the sensor the output flag is maintained for 10µs of dwell time. This allows the overcurrent to be easily detected at microcontroller level. More information can be found in Application Note AN91220_OverCurrentDetection on www.melexis.com The following table offers a comparison between OCD INT and OCD EXT: OCDINT Min OCDEXT Max Min Max Typical Application Short-circuit detection Out-of-range detection Overcurrent effect OCDINT pin to VSS OCD EXT pin to VSS Bidirectional Unidirectional / bidirectional Lower Higher EEPROM Voltage divider on VOC EXT Detection mode Accuracy Threshold trimming Response time 1.4µs Required Input holding time OCD output dwell time 2.1µs 0.5µs 7 µs 10µs typical 10µs minimum 14 µs 10µs typical Table 21: Comparison between OCD INT and OCD EXT performances DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 27 of 38 MLX91220 Integrated Current Sensor IC Datasheet 11.2. Electrical Specifications DC Operating Parameters at VDD = 5V (unless otherwise specified) and for T A as specified by the Temperature suffix (K). Parameter Symbol Test Conditions Min Typ Max Units OCD_INT Internal ON Resistance 𝑅𝑂𝑁_𝑂𝐶𝐷_𝐼𝑁𝑇 𝐼𝑆𝐼𝑁𝐾 = 1 mA 60 90 150 Ω OCD_EXT Internal ON Resistance 𝑅𝑂𝑁_𝑂𝐶𝐷_𝐸𝑋𝑇 𝐼𝑆𝐼𝑁𝐾 = 1 mA 160 190 280 Ω 2 V VOC_EXT Voltage Range VOC_EXT 0.3 Table 22: OCDINT and OCDEXT electrical specifications 11.3. Internal Overcurrent Detection Principle The internal OCD takes fixed threshold voltage values predefined in the EEPROM and do not require any extra components. The OCDINT implementation allows detecting overcurrent outside of the output measurement range of the sensor and is therefore suitable for large current peaks as occurring during short-circuit. If the theoretical sensor output overcomes the OCDINT voltage threshold, the overcurrent event is flagged on OCDINT pin. The default OCD threshold voltages are defined as follow, but other values can be set on request. The overcurrent threshold in ampere is deduced from the sensitivity of the sensor [mV/A] and the OCDINT threshold voltage. OCDINT Threshold [% FS] Sensor configuration Min. Max. VDD = 5V / VREF = 2.5V 24.4 220 VDD = 5V / VREF = 0.5V 12.2 110 Table 23: OCDINT factory programmable range DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 28 of 38 MLX91220 Integrated Current Sensor IC Datasheet Sensor reference Sensitivity [mV/A] OCDINT Threshold Current [% FS] OCDINT Threshold MLX91220KDF-ABF-117 120 87.1 14.8 MLX91220KDF-ABx-020 100 111.2 22.2 MLX91220KDx-ABx-025 80 111.2 27.8 MLX91220KDx-ABx-050 40 111.2 55.6 MLX91220KDx-AUF-050 80 110 55 MLX91220KDC-ABR-030 66 112.3 33.7 MLX91220KDF-ABF-075 26.7 111.2 83.4 Current [A] Table 24: OCDINT threshold currents for SOIC-16 versions 11.4. External Overcurrent Detection Principle The external OCD uses the voltage applied on VOCEXT pin as threshold voltage. This translates into an overcurrent threshold in ampere depending on the sensitivity of the sensor. A voltage divider on VOCEXT allows defining the threshold voltage in a custom way. Depending on the voltage divider configuration, the OCD EXT can be used either in bidirectional or unidirectional mode. The External OCD threshold is defined within the measurement range of the sensor output. This feature is then suitable for out-of-range detection where the OCD threshold remains close to the nominal current. It offers a better accuracy than OCD INT but the response is slower. The below table presents the unidirectional and bidirectional external OCD configurations. Please refer to section 13.1 and 13.3 for more details about the application diagram and the recommended resistances. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 29 of 38 MLX91220 Integrated Current Sensor IC Datasheet Bidirectional configuration 𝑽𝑶𝑪𝑬𝑿𝑻 = 𝑽𝑹𝑬𝑭 ∗ 𝑹𝒆𝒙𝒕𝒃𝒊 𝑹𝒆𝒙𝒕 + 𝑹𝒆𝒙𝒕𝒃𝒊 𝑽𝑳𝒐𝒄𝒅 = 𝑽𝑶𝑪𝑬𝑿𝑻 Unidirectional configuration 𝑽𝑶𝑪𝑬𝑿𝑻 = 𝑽𝑹𝑬𝑭 + (𝑽𝑫𝑫 − 𝑽𝑹𝑬𝑭 ) ∗ 𝑹𝒆𝒙𝒕 𝑹𝒆𝒙𝒕 + 𝑹𝒆𝒙𝒕_𝒖𝒏𝒊 𝑽𝑯𝒐𝒄𝒅 = 𝑽𝑶𝑪𝑬𝑿𝑻 𝑽𝑯𝒐𝒄𝒅 = 𝟐. 𝑽𝑹𝑬𝑭 − 𝑽𝑳𝒐𝒄𝒅 Table 25: External OCD, bidirectionnal and unidirectional configurations 12. Recommended Application Diagrams 12.1. Resistor and Capacitor Values Part Description Value Unit C1 Supply capacitor, EMI, ESD 47 nF C2 Decoupling, EMI, ESD 47 nF C3 Decoupling, EMI, ESD 4.7 nF REXT + REXT_BI / REXT_UNI External OCD Resistor ~200(1) kΩ REXT_BI or REXT_UNI External OCD Resistor custom - Table 26: Resistor and Capacitor Values for Recommended Application Diagrams (1) High impedance needed due to the current source/sink limitation of the V REF pin. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 30 of 38 MLX91220 Integrated Current Sensor IC Datasheet 12.2. SOIC8 Application Diagram Figure 6: Recommended wiring for the MLX91220 in SOIC-8 package 12.3. SOIC16 Application Diagram Figure 7: Recommended wiring for the MLX91220 with Bidirectionnal External OCD DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 31 of 38 MLX91220 Integrated Current Sensor IC Datasheet Figure 8: Recommended wiring for the MLX91220 with Unidirectionnal External OCD 12.3.1. OCD functions not used In case of OCD functions are not needed (internal or external), OCD pins can be connected to GND. Moreover, when OCD_ext is not needed, VOC_ext pin should be connected to GND. Figure 7 shows the wiring when both OCD functions are not needed. Figure 9 : example of wiring in case of both OCD functions not needed DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 32 of 38 MLX91220 Integrated Current Sensor IC Datasheet 13. Standard information regarding manufacturability with different soldering processes Our products are classified and qualified regarding soldering technology, solderability and moisture sensitivity level according to following test methods: Reflow Soldering SMD’s (Surface Mount Devices) ▪ IPC/JEDEC J-STD-020 Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices (classification reflow profiles according to table 5-2) ▪ EIA/JEDEC JESD22-A113 Preconditioning of Nonhermetic Surface Mount Devices Prior to Reliability Testing (reflow profiles according to table 2) Wave Soldering SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices) ▪ EN60749-20 Resistance of plastic- encapsulated SMD’s to combined effect of moisture and soldering heat ▪ EIA/JEDEC JESD22-B106 and EN60749-15 Resistance to soldering temperature for through-hole mounted devices Iron Soldering THD’s (Through Hole Devices) ▪ EN60749-15 Resistance to soldering temperature for through-hole mounted devices Solderability SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices) ▪ EIA/JEDEC JESD22-B102 and EN60749-21 Solderability For all soldering technologies deviating from above mentioned standard conditions (regarding peak temperature, temperature gradient, temperature profile etc) additional classification and qualification tests have to be agreed upon with Melexis. The application of Wave Soldering for SMD’s is allowed only after consulting Melexis regarding assurance of adhesive strength between device and board. DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 33 of 38 MLX91220 Integrated Current Sensor IC Datasheet Melexis recommends reviewing on our web site the General Guidelines soldering recommendation (https://www.melexis.com/en/quality-environment/soldering). Melexis is contributing to global environmental conservation by promoting lead free solutions. For more information on qualifications of RoHS compliant products (RoHS = European directive on the Restriction Of the use of certain Hazardous Substances) please visit the quality page on our website (https://www.melexis.com/en/quality-environment). 14. ESD Precautions Electronic semiconductor products are sensitive to Electro Static Discharge (ESD). Always observe Electro Static Discharge control procedures whenever handling semiconductor products. Parameter Symbol Test Method Value Unit Human Body ESD Protection ESDHBM AEC-Q100-002 Rev D 2 kV Charged Device Model ESD Protection ESDCDM AEC-Q100-011 Rev B 500 V Table 27: Electrostatic Discharge Ratings DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 34 of 38 MLX91220 Integrated Current Sensor IC Datasheet 15. Package Information 15.1. SOIC-8 150mils - Package Dimensions Figure 10 : SOIC8 Package Dimensions [mm] A A1 A2 D E H L b c e h min 1.52 0.10 1.37 4.80 3.81 5.80 0.41 0.35 0.19 0.25 0° max 1.73 0.25 1.57 4.98 3.99 6.20 1.27 0.49 0.25 1.27 BSC 0.50 8° [inch] A A1 A2 D E H L b c e h min .060 .004 .054 .189 .150 .228 .016 .014 .008 .010 0° max .068 .010 .062 .196 .157 .244 .050 .019 .010 .050 BSC .020 8° Table 28: SOIC8 package dimensions in millimeters and inches DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 35 of 38 MLX91220 Integrated Current Sensor IC Datasheet 15.2. SOIC-16 300mils - Package Dimensions Figure 11 : SOIC16 Package Dimensions [mm] A A1 A2 D E H L b c e h min 2.44 0.10 2.24 10.11 7.40 10.11 0.51 0.35 0.23 0.25 0° max 2.64 0.30 2.44 10.46 7.60 10.51 1.02 0.48 0.32 1.27 BSC 0.71 8° [inch] A A1 A2 D E H L b c e h min .096 .004 .088 .398 .291 .398 .020 .014 .009 .010 0° max .104 .012 .096 .412 .299 .414 .040 .019 .013 .050 BSC .028 8° Table 29: SOIC16 package dimensions in millimeters and inches DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 36 of 38 MLX91220 Integrated Current Sensor IC Datasheet 15.3. Packaging marks SOIC-8 SOIC-16 Table 30: Package marking information 16. Contact For additional information, please contact our Direct Sales team and get help for your specific needs: Europe, Africa Email : sales_europe@melexis.com Americas Email : sales_usa@melexis.com Asia Email : sales_asia@melexis.com DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 37 of 38 MLX91220 Integrated Current Sensor IC Datasheet 17. 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The confidentiality obligations set forth in this disclaimer will have indefinite duration and in any case they will be effective for no less than 10 years from the receipt of this document. This disclaimer will be governed by and construed in accordance with Belgian law and any disputes relating to this disclaimer will be subject to the exclusive jurisdiction of the courts of Brussels, Belgium. The invalidity or ineffectiveness of any of the provisions of this disclaimer does not affect the validity or effectiveness of the other provisions. The previous versions of this document are repealed. Melexis © - No part of this document may be reproduced without the prior written consent of Melexis. (2022) IATF 16949 and ISO 14001 Certified For the latest version of this document or find your local contact, visit us at https://www.melexis.com/en/product/MLX91220 DOC. № 3901091220, REVISION 3.0 - MAY 6, 2022 Page 38 of 38
MLX91220KDC-ABR-050-SP 价格&库存

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MLX91220KDC-ABR-050-SP
  •  国内价格 香港价格
  • 1+47.179591+5.67672
  • 5+30.012295+3.61113
  • 10+23.7020810+2.85187
  • 560+23.57721560+2.83685
  • 1040+22.125931040+2.66223

库存:22

MLX91220KDC-ABR-050-SP
    •  国内价格
    • 80+18.52181

    库存:160