BGB101, BGB101Y, BGB102 Selling Leads, Datasheet
MFG:PHILIPS Package Cooled:QFN D/C:04+PB
BGB101, BGB101Y, BGB102 Datasheet download
Part Number: BGB101
MFG: PHILIPS
Package Cooled: QFN
D/C: 04+PB
MFG:PHILIPS Package Cooled:QFN D/C:04+PB
BGB101, BGB101Y, BGB102 Datasheet download
MFG: PHILIPS
Package Cooled: QFN
D/C: 04+PB
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Datasheet: BGB101
File Size: 165700 KB
Manufacturer: PHILIPS [Philips Semiconductors]
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PDF/DataSheet Download
Datasheet: BGB100
File Size: 188963 KB
Manufacturer: PHILIPS [Philips Semiconductors]
Download : Click here to Download
PDF/DataSheet Download
Datasheet: BGB100
File Size: 188963 KB
Manufacturer: PHILIPS [Philips Semiconductors]
Download : Click here to Download
The BGB101 Bluetooth radio module is a short-range radio transceiver for wireless links operating in the globally available ISM band, between 2402 and 2480 MHz. It is composed of a fully integrated, state-of-the-art near-zero-IF transceiver chip, an antenna filter for out-of-band blocking performance, a TX/RX switch, TX and RX balans, the VCO resonator and a basic amount of supply decoupling. The device is a "Plug-and Play" module that needs no external components for proper operation.
Robust design allows for untrimmed components, giving a cost-optimized solution. Demodulation is done in open-loop mode to reduce the effects of reference frequency breakthrough on reception quality. An advanced offset compensation circuit compensates for VCO drift and RF frequency errors during open-loop demodulation, under control by the baseband processor.
The circuit is integrated on a ceramic substrate. It is connected to the main PCB through a LGA (Land Grid Array). The RF port has a normalized 50 Ω impedance and can be connected directly to an external antenna, with a 50 Ω transmission line.
The interfacing to the baseband processor is very simple, which leads to a low-power solution. Control of the module
operating mode is done through a 3-wire serial bus and one additional control signal.
TX and RX data I/O lines are analogue-mode interfaces.
A high-dynamic range RSSI output allows near-instantaneous assessment of radio link quality.Frequency selection is done internally by a conventional synthesizer. It is controlled by the same serial 3-wire bus.
The synthesizer accepts reference frequencies of 12 and 13. This reference frequency should be supplied by an external source. This can be a dedicated (temperature compensated) crystal oscillator or be part of the baseband controller.
The circuit is designed to operate from 3.0 V nominal supplies. Separate ground connections are provided for reduced parasitic coupling between different stages of the circuit. There is a basic amount of RF supply decoupling incorporated into the circuit.
The envelope is a leadless SOT750A package with a plastic cap.
SYMBOL | PARAMETER | CONDITIONS | MIN. | MAX. | UNIT |
VS1, VS2, VS3 | supply voltage | −0.3 | 3.6 | V | |
input control pin voltage | −0.3 | VS | V | ||
∆GND | difference in ground supply voltage between ground pins |
− | 0.01 | V | |
Pi max | maximum input power | − | +4 | dBm | |
Tstg | storage temperature | −40 | +85 | ||
Tj | junction temperature | − | 150 |