LDC1041

ACTIVE

1-Ch, 5V, 24-bit L, 8-bit Rp, inductance to digital converter

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Data sheet

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LDC1041

ACTIVE

Data sheet

Order now

Product details

Number of input channels

1

Rating

Catalog

Operating temperature range (°C)

-40 to 125

Number of input channels

1

Rating

Catalog

Operating temperature range (°C)

-40 to 125

WSON (NHR)

16

20 mm² 5 x 4

Remote sensor placement (decoupling the LDC from
harsh environments)
High durability (by virtue of contactless operation)
Higher flexibility for system design (using coils or
springs as sensors)
Insensitive to non-conductive environmental interferers
(such as dirt, dust, oil etc.)
Magnet-free operation
Sub-micron precision
Supply Voltage: 5 V, typ
Supply voltage, IO: 1.8V to 5.5V
Stand-by current: 250µA, typ
Rp resolution: 8-bit
L resolution: 24-bit
LC frequency range: 5kHz to 5MHz

Remote sensor placement (decoupling the LDC from
harsh environments)
High durability (by virtue of contactless operation)
Higher flexibility for system design (using coils or
springs as sensors)
Insensitive to non-conductive environmental interferers
(such as dirt, dust, oil etc.)
Magnet-free operation
Sub-micron precision
Supply Voltage: 5 V, typ
Supply voltage, IO: 1.8V to 5.5V
Stand-by current: 250µA, typ
Rp resolution: 8-bit
L resolution: 24-bit
LC frequency range: 5kHz to 5MHz

Inductive sensing is a contactless, short-range sensing technology enabling high-resolution and low-cost position sensing of conductive targets, even in harsh environments. Using a coil or spring as a sensor, the LDC1041 inductance-to-digital converter provides system designers a way to achieve high performance and reliability at a lower system cost than other competing solutions.

The LDC1041 is pin compatible with the LDC1000 (16-bit Rp/24-bit L) and the LDC1051 (8-bit Rp). This family of devices offers system designers different resolution options based on their application and system requirements.

The LDC1041 is available in a 5mm x 4mm WSON-16 package. Device programming via SPI allows for easy configuration using a microcontroller.

Inductive sensing is a contactless, short-range sensing technology enabling high-resolution and low-cost position sensing of conductive targets, even in harsh environments. Using a coil or spring as a sensor, the LDC1041 inductance-to-digital converter provides system designers a way to achieve high performance and reliability at a lower system cost than other competing solutions.

The LDC1041 is pin compatible with the LDC1000 (16-bit Rp/24-bit L) and the LDC1051 (8-bit Rp). This family of devices offers system designers different resolution options based on their application and system requirements.

The LDC1041 is available in a 5mm x 4mm WSON-16 package. Device programming via SPI allows for easy configuration using a microcontroller.

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