MLX91216 (IMC-HALL) and MLX91217 (Conventional) Next Generation Current Sensors

Melexis' high-speed current sensors offer high accuracy and extended on-chip filtering options

Image of Melexis' MLX91216 and MLX91217 Current Sensors The Melexis MLX91216 and MLX91217 are IMC and conventional hall Gen 2.5 high-speed current sensors. They introduce a few major improvements over the MLX91208 and MLX91209 Gen 2 devices, including an increase in sensitivity accuracy and temperature offset resulting in higher sensor accuracy. Increased diagnostic coverage along with the introduction of clamping, broken wire detection, and on-chip filtering will allows for an accurate trade-off between bandwidth/response time and higher resolution. The MLX91217 comes in a SIP4-VA package, whereas the MLX91216 is SOIC-8.

Features
  • Automotive AEC-Q100 grade 0
  • High speed: 250 kHz bandwidth, 2.5 µs response time
  • Increased diagnostic capability: programmable output clamping and broken wire detection
  • Extended on-chip filtering options
  • High accuracy
    • Sensitivity thermal drift <1% (33% improvement)
    • Offset thermal drift <5 mV (50% improvement)

MLX91216 Current Sensors

ImageManufacturer Part NumberDescriptionFrequencyAvailable QuantityPriceView Details
CURRENT SEN HE/OL 1200A 8-SOICMLX91216LDC-ACV-000-SPCURRENT SEN HE/OL 1200A 8-SOIC250kHz80 - Immediate$4.23View Details
CURRENT SEN HE/OL 1200A 8-SOICMLX91216LDC-ACV-001-SPCURRENT SEN HE/OL 1200A 8-SOIC250kHz80 - Immediate$4.23View Details
CURRENT SEN HE/OL 1200A 8-SOICMLX91216LDC-ACH-000-SPCURRENT SEN HE/OL 1200A 8-SOIC250kHz0 - Immediate$3.21View Details

MLX91217 Current Sensors

ImageManufacturer Part NumberDescriptionFrequencyAvailable QuantityPriceView Details
CURRENT SENSOR HE/OLMLX91217LVA-ACA-005-SPCURRENT SENSOR HE/OL250kHz0 - Immediate$2.71View Details
CURRENT SENSOR HE/OLMLX91217LVA-ACA-000-SPCURRENT SENSOR HE/OL250kHz0 - Immediate$2.71View Details
CURRENT SENSOR HE/OLMLX91217LVA-ACA-003-SPCURRENT SENSOR HE/OL250kHz0 - Immediate$2.71View Details
Published: 2019-02-21