Single channel Digital Controller with SPI and UART
Single channel Digital Controller with SPI and UART
Description
QIA126 is a High Resolution & High-Speed Miniature Strain Gauge & Load Cell Signal Conditioner. This miniature signal conditioner is equipped with Single Channel Digital Full Bridge Strain Gauge Controller with SPI and UART digital output.
QIA126 is capable of sampling the signal from 5 - 4800 samples per second (SPS), with up to 19 Bits of Noise Free Resolution (NFR). Its super small board footprint of only 19.5x17.8 mm makes it suitable for medical or robotic applications where assembly space is a limiting design factor.
Its 4 Pin 0.5mm Pitch FFC Sensor Connector, Board to Board Power & Output Connector makes it easier to integrate with the existing controller board.
For multi channel load cell amplifier, visit QIA125 Digital Low Power Three Channel SPI Output.
Product Highlights And Features
- mV/V Differential Input
- SPI and UART Digital Output
- Up to 4800 Samples Per Second (SPS)
- Up to 19 Bit Noise Free Resolution
- 0.01% of FSR Nonlinearity
Single channel Digital Controller with SPI and UART
Description
QIA126 is a High Resolution & High-Speed Miniature Strain Gauge & Load Cell Signal Conditioner. This miniature signal conditioner is equipped with Single Channel Digital Full Bridge Strain Gauge Controller with SPI and UART digital output.
QIA126 is capable of sampling the signal from 5 - 4800 samples per second (SPS), with up to 19 Bits of Noise Free Resolution (NFR). Its super small board footprint of only 19.5x17.8 mm makes it suitable for medical or robotic applications where assembly space is a limiting design factor.
Its 4 Pin 0.5mm Pitch FFC Sensor Connector, Board to Board Power & Output Connector makes it easier to integrate with the existing controller board.
For multi channel load cell amplifier, visit QIA125 Digital Low Power Three Channel SPI Output.
Product Highlights And Features
- mV/V Differential Input
- SPI and UART Digital Output
- Up to 4800 Samples Per Second (SPS)
- Up to 19 Bit Noise Free Resolution
- 0.01% of FSR Nonlinearity