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FDC2214-Q1

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4-kanaliger Kapazitäts-Digital-Wandler, 28 Bit, für die Automobilindustrie

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Datenblatt

FDC2214-Q1

AKTIV
Datenblatt Jetzt bestellen

Produktdetails

Number of input channels 4 Operating temperature range (°C) -40 to 125 Interface type I2C Resolution (bps) 28 Rating Automotive
Number of input channels 4 Operating temperature range (°C) -40 to 125 Interface type I2C Resolution (bps) 28 Rating Automotive
WQFN (RGH) 16 16 mm² 4 x 4
  • Qualified for automotive applications
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 1: –40°C to +125°C ambient operating temperature range
    • Device HBM ESD classification level 2
    • Device CDM ESD classification level C5
  • EMI-resistant architecture
  • Maximum output rates (one active channel):
    • 13.3kSPS (FDC2112-Q1, FDC2114-Q1)
    • 4.08kSPS (FDC2212-Q1, FDC2214-Q1)
  • Maximum input capacitance: 250nF (at 10kHz with 1mH inductor)
  • Sensor excitation frequency: 10kHz to 10MHz
  • Number of channels: 2, 4
  • Resolution: up to 28 bits
  • RMS noise: 0.3fF at 100SPS and fSENSOR = 5MHz
  • Supply voltage: 2.7V to 3.6V
  • power consumption: active: 2.1mA
  • Low-power sleep mode: 35µA
  • Shutdown: 200nA
  • Interface: I2C
  • Temperature range: –40°C to +125°C
  • Qualified for automotive applications
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 1: –40°C to +125°C ambient operating temperature range
    • Device HBM ESD classification level 2
    • Device CDM ESD classification level C5
  • EMI-resistant architecture
  • Maximum output rates (one active channel):
    • 13.3kSPS (FDC2112-Q1, FDC2114-Q1)
    • 4.08kSPS (FDC2212-Q1, FDC2214-Q1)
  • Maximum input capacitance: 250nF (at 10kHz with 1mH inductor)
  • Sensor excitation frequency: 10kHz to 10MHz
  • Number of channels: 2, 4
  • Resolution: up to 28 bits
  • RMS noise: 0.3fF at 100SPS and fSENSOR = 5MHz
  • Supply voltage: 2.7V to 3.6V
  • power consumption: active: 2.1mA
  • Low-power sleep mode: 35µA
  • Shutdown: 200nA
  • Interface: I2C
  • Temperature range: –40°C to +125°C

Capacitive sensing is a low-power, high-resolution contactless sensing technique that can be applied to a variety of applications ranging from proximity detection to gesture recognition. The sensor in a capacitive sensing system is any metal or conductor, allowing for highly flexible system design.

The main challenge limiting sensitivity in capacitive sensing applications is noise susceptibility of the sensors. With the FDC2x1x-Q1 resonant sensing architecture, performance can be maintained even in presence of fluorescent light.

The FDC2x1x-Q1 is a multi-channel family of high-resolution, high-speed capacitance-to-digital converters for implementing capacitive sensing solutions. The devices employ an innovative narrow-band based architecture to offer high rejection of noise while providing high resolution at high speed. The devices support a wide excitation frequency range, offering flexibility in system design.

Capacitive sensing is a low-power, high-resolution contactless sensing technique that can be applied to a variety of applications ranging from proximity detection to gesture recognition. The sensor in a capacitive sensing system is any metal or conductor, allowing for highly flexible system design.

The main challenge limiting sensitivity in capacitive sensing applications is noise susceptibility of the sensors. With the FDC2x1x-Q1 resonant sensing architecture, performance can be maintained even in presence of fluorescent light.

The FDC2x1x-Q1 is a multi-channel family of high-resolution, high-speed capacitance-to-digital converters for implementing capacitive sensing solutions. The devices employ an innovative narrow-band based architecture to offer high rejection of noise while providing high resolution at high speed. The devices support a wide excitation frequency range, offering flexibility in system design.
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Technische Dokumentation

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Typ Titel Datum
* Data sheet FDC2x1x-Q1 Multi-Channel, High Resolution Capacitance-to-Digital Converter for Capacitive Sensing Applications datasheet (Rev. A) PDF | HTML 10 Okt 2024
Application note Common Inductive and Capacitive Sensing Applications (Rev. B) PDF | HTML 22 Jun 2021
Application note Simulate Inductive Sensors Using FEMM (Finite Element Method Magnetics) (Rev. A) PDF | HTML 16 Jun 2021
Application note Capacitive Proximity Sensing Using FDC2x1y (Rev. A) 20 Okt 2017
EVM User's guide FDC2114 and FDC2214 EVM User’s Guide (Rev. A) 14 Sep 2016
Application note Ground Shifting in Capacitive Sensing Applications PDF | HTML 27 Mai 2016
Application note Power Consumption Analysis for Low Power Capacitive Sensing Applications PDF | HTML 18 Jan 2016
More literature A Guide to Capacitive Sensing Infographic (Rev. A) 19 Okt 2015
EVM User's guide FDC2214 Proximity and Capacitive Touch EVM User’s Guide 14 Okt 2015
Application note Derivative Integration Algorithm for Proximity Sensing 29 Sep 2015
Application note Capacitive Sensing: Direct vs Remote Liquid Level Sensing Performance Analysis (Rev. A) 24 Jul 2015

Design und Entwicklung

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Evaluierungsplatine

FDC2214EVM — Evaluierungsmodul für FDC2214 mit zwei kapazitiven Sensoren

The FDC2214 evaluation module demonstrates capacitive sensing technology to detect the presence of a conductive or non-conductive target. The evaluation module includes two PCB capacitive sensors that connect to two of the four channels of the FDC2214. An MSP430 microcontroller is used to interface (...)

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Simulationsmodell

FDC2214 IBIS MODEL

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