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Images
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Mfr.Part #
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In Stock
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Manufacturer
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Description
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Package
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AFE1103E | 44445 | Texas Instruments | IC AFE 1 CHAN 14BIT 48SSOP | 48-BSSOP (0.295", 7.50mm Width) |
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ADPD103BCPZRL | 94952 | Analog Devices Inc. | IC AFE 4 CHAN 14BIT 28LFCSP-WQ | 28-WFQFN Exposed Pad, CSP |
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RAA730501CFP#AC0 | 46512 | Renesas Electronics America Inc | IC REGULATOR | Tray |
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AFE1103E/1K | 30328 | Texas Instruments | IC AFE 1 CHAN 14BIT 48SSOP | 48-BSSOP (0.295", 7.50mm Width) |
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RBK01P01GQT-0000#GCH | 27790 | Renesas Electronics America Inc | IC POWER MANAGEMENT | Tray |
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MAX19713ETN+GH7 | 61206 | Analog Devices Inc./Maxim Integrated | IC AFE 2 CHAN 10BIT 56TQFN | Tube |
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LM98714CCMT/NOPB | 41946 | Texas Instruments | IC AFE 3 CHAN 16BIT 48TSSOP | 48-TFSOP (0.240", 6.10mm Width) |
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AD71030AR-REEL | 56854 | Analog Devices Inc. | INTEGRATED CIRCUIT | - |
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RBK02P13GQT-0000#YJ1 | 46092 | Renesas Electronics America Inc | IC POWER MANAGEMENT | Tray |
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WM8215CSEFL/R | 82400 | Cirrus Logic Inc. | IC AFE 3 CHAN 10BIT 32QFN | 32-VFQFN Exposed Pad |
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RAA730502CFP#AC0 | 99648 | Renesas Electronics America Inc | IC REGULATOR | Tray |
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BCM6506IFB | 60400 | Broadcom Limited | ADSL/VDSL ANALOG FRONT END | Tray |
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VSP7502ZWV | 38643 | Texas Instruments | IC AFE 4 CHAN 16BIT 159NFBGA | 159-TFBGA |
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VSP5620RSLR | 28951 | Texas Instruments | IC AFE 4 CHAN 16BIT 48VQFN | 48-VFQFN Exposed Pad |
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SX9001ICSTRT | 27051 | Semtech Corporation | IC AFE CAP SENSE 256WLCSP | Tape & Reel (TR) |
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PEB24902HV2.1-LA | 55646 | Lantiq | 4 CHANNEL ISDN ANALOG FRONT END | Bulk |
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ADPD175GGI-ACEZRL7 | 61460 | Analog Devices Inc. | IC AFE MODULE FOR HRM/SPO2 | Module |
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ADPD105BCPZ | 78712 | Analog Devices Inc. | IC AFE 4 CHAN 14BIT 28LFCSP-WQ | 28-WFQFN Exposed Pad, CSP |
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SX9000IGBTT | 63189 | Semtech Corporation | IC AFE CAP SENSE 256WLCSP | Tape & Reel (TR) |
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SX9000ICSTRT | 39686 | Semtech Corporation | IC AFE CAP SENSE 256WLCSP | Tape & Reel (TR) |
Analog Front End (AFE)
1. What is Analog Front End (AFE)?
Analog Front End (AFE) is a key component for processing analog signals in electronic systems. It is located between the sensor/signal source and the digital processor and is responsible for converting the original analog signal into a high-quality, processable digital signal. Its core function is to solve the problems of analog signals being susceptible to noise interference and low amplitude, and to provide a reliable input basis for digital systems.
2. What are the Core Functions of Analog Front End (AFE)?
1) Signal Conditioning
Amplification: Increase the amplitude of weak analog signals and enhance system sensitivity.
Filtering: Eliminate noise and interference through hardware or digital filtering to improve the signal-to-noise ratio.
2) Analog-to-Digital Conversion (ADC)
Built-in high-precision ADC discretizes the conditioned analog signal into a digital signal. The sampling rate directly affects the accuracy of signal restoration.
3) Preprocessing
Some AFEs integrate simple digital processing units (such as FFT and baseline correction) to reduce the burden on the main processor.
3. What are the Structural Features of Analog Front End (AFE)?
Highly Integrated
Amplifiers, filters, ADCs, reference voltage sources, excitation circuits, and other modules are integrated into a single chip to simplify system design.
Mixed Signal Architecture
Based on analog circuits, supplemented by a small amount of digital control logic (such as multiplexers and state machines).
Flexible Interface
Supports digital interfaces such as I²C and SPI (such as ISO-SPI for BMS daisy chain communication), compatible with various MCUs or processors.
4. What are Analog Front End (AFE) Used for?
Battery management system (BMS)
Collect cell voltage/temperature, and the accuracy directly affects SOC estimation.
Built-in passive balancing circuit to balance the battery pack through resistor discharge.
High-speed Communication Interface
Processes high-speed signal transmission and reception in protocols such as PCIe, and integrates equalizer (Equalizer) and clock data recovery (CDR) modules.
Precision Measurement System
Used in industrial sensors, medical equipment, etc., to achieve high-resolution acquisition of weak analog signals.
5. Key Parameters Selection for Analog Front End (AFE)
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Parameter |
Description |
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Resolution |
The number of ADC bits (such as 16bit), which determines the signal quantization accuracy |
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Sampling Rate |
Affects the signal restoration capability and must meet the Nyquist theorem |
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Power Consumption |
Especially critical for portable devices, related to the ADC architecture (Δ-Σ/pipeline type) |
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Integrated Functions |
Such as built-in PGA (programmable gain amplifier), temperature sensor, reference source, etc. |
6. Development Trend of Analog Front End (AFE)
The new generation of AFE continues to evolve towards higher integration (such as MCU integration), lower power consumption (suitable for IoT devices), and intelligent signal processing (embedded AI pre-processing) to meet the needs of complex application scenarios.