Product details

Rating Automotive TI functional safety category Functional Safety-Compliant Operating temperature range (°C) -40 to 160
Rating Automotive TI functional safety category Functional Safety-Compliant Operating temperature range (°C) -40 to 160
TSSOP (PW) 16 32 mm² 5 x 6.4
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 0: –40°C to +160°C ambient operating temperature
  • Integrated analog front-end IC for contact-less, inductive position sensors for absolute rotary position from 0° to 360°
  • Removes the need for magnets, lowering system cost
  • Supports operation in harsh environments; immune to stray magnetic fields, dirt, and contamination
  • High resolution and accuracy of ≤ 1 degree at rotational speeds up to 480,000 RPM
  • Differential signal paths with sine and cosine outputs supporting a wide dynamic input range
  • 5-V and 3.3-V input supply operating modes
  • Integrated LC oscillator in the 2.4-MHz to 5-MHz band to excite the inductive sensor coil
  • Differential output drivers with high-voltage protection and large capacitive load capability
  • Automatic and manual gain control to maximize dynamic range of output drivers
  • Functional Safety-Compliant
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 system design
    • Systematic capability up to ASIL C(D)
    • Hardware capability up to ASIL C
  • Extensive IC, sensor input, output, and supply pin diagnostics
  • Reverse voltage and overvoltage protection on input supply and output pins from –15 V to 30 V
  • Supports redundant mode for functional safety
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 0: –40°C to +160°C ambient operating temperature
  • Integrated analog front-end IC for contact-less, inductive position sensors for absolute rotary position from 0° to 360°
  • Removes the need for magnets, lowering system cost
  • Supports operation in harsh environments; immune to stray magnetic fields, dirt, and contamination
  • High resolution and accuracy of ≤ 1 degree at rotational speeds up to 480,000 RPM
  • Differential signal paths with sine and cosine outputs supporting a wide dynamic input range
  • 5-V and 3.3-V input supply operating modes
  • Integrated LC oscillator in the 2.4-MHz to 5-MHz band to excite the inductive sensor coil
  • Differential output drivers with high-voltage protection and large capacitive load capability
  • Automatic and manual gain control to maximize dynamic range of output drivers
  • Functional Safety-Compliant
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 system design
    • Systematic capability up to ASIL C(D)
    • Hardware capability up to ASIL C
  • Extensive IC, sensor input, output, and supply pin diagnostics
  • Reverse voltage and overvoltage protection on input supply and output pins from –15 V to 30 V
  • Supports redundant mode for functional safety

The LDC5072-Q1 IC is an analog front-end for contact-less, inductive position sensors targeted for absolute rotary position in automotive and industrial applications. The LDC5072-Q1 excites a coil that is typically printed on a printed circuit board (PCB). The excitation is coupled back into two sets of receiver coils on the same PCB using a conductive target that is placed in close proximity of the PCB. The conductive target can also be a pattern printed on another PCB. The coil PCB stays stationary and the target moves with the motor, actuator, or valve. The excitation coil generates a secondary voltage on the receiver coils depending on the position of the target relative to the receiver coils. A signal representation of the position is obtained by reading in the voltages from the receiver coils, processing it, and giving analog outputs representing the Sine and Cosine components of the position of the target.

The LDC5072-Q1 IC is an analog front-end for contact-less, inductive position sensors targeted for absolute rotary position in automotive and industrial applications. The LDC5072-Q1 excites a coil that is typically printed on a printed circuit board (PCB). The excitation is coupled back into two sets of receiver coils on the same PCB using a conductive target that is placed in close proximity of the PCB. The conductive target can also be a pattern printed on another PCB. The coil PCB stays stationary and the target moves with the motor, actuator, or valve. The excitation coil generates a secondary voltage on the receiver coils depending on the position of the target relative to the receiver coils. A signal representation of the position is obtained by reading in the voltages from the receiver coils, processing it, and giving analog outputs representing the Sine and Cosine components of the position of the target.

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Design & development

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Evaluation board

LDC5072Q1EVM — LDC5072-Q1 evaluation module for inductive position sensor interface with sine/cosine outputs

The LDC5072-Q1 evaluation module (EVM) helps designers evaluate the operation and performance of the LDC5072-Q1 inductive position sensor. The EVM contains all passive components necessary for the LDC5072-Q1 and can be quickly evaluated in a system.  A sensor printed circuit board (PCB) (...)

User guide: PDF
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Design tool

LDC5072-Q1-SENSOR-DESIGN-TOOL The LDC5072-Q1 sensor design tool provides an inductive PCB sensor design, supporting layout files, and a spice model of a motor-monitoring system.

The LDC5072X design tool is a powerful resource to accelerate the design and implementation of inductive PCB sensors for monitoring motor position with the LDC5072-Q1. The tool accepts user inputs for electrical and mechanical requirements and creates a PCB inductive sensor and supporting target. (...)

Supported products & hardware

Supported products & hardware

Products
Inductive sensor AFEs
LDC5072-Q1 Automotive inductive position sensor front end with sine/cosine interface
Hardware development
Evaluation board
LDC5072Q1EVM LDC5072-Q1 evaluation module for inductive position sensor interface with sine/cosine outputs
Package Pins CAD symbols, footprints & 3D models
TSSOP (PW) 16 Ultra Librarian

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