TRC103 RFM, TRC103 Datasheet - Page 6

TRC103

Manufacturer Part Number

TRC103

Description

RFIC TRANSCEIVER MULTI-CHANNEL F

Manufacturer

RFM

Series

TRCr

Datasheet

1.TRC103.pdf (64 pages)

Specifications of TRC103

Frequency

863MHz ~ 960MHz

Data Rate - Maximum

100kbps

Modulation Or Protocol

FSK, OOK

Applications

General Purpose

Power - Output

11dBm

Sensitivity

-112dBm

Voltage - Supply

2.1 V ~ 3.6 V

Current - Receiving

4mA

Current - Transmitting

30mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

-40°C ~ 85°C

Package / Case

32-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

Other names

583-1095-2

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The transmitter chain is based on the same double-conversion architecture and uses the same intermediate fre-

quencies as the receiver chain. The main blocks include:

The frequency synthesizer is based on an integer-N PLL having an typical frequency step size of 12.5 kHz. Two

programmable frequency dividers in the feedback loop of the PLL and one programmable divider on the reference

oscillator allow the LO frequency to be adjusted. The reference frequency is generated by a crystal oscillator run-

ning at 12.8 MHz.

The TRC103 is controlled by a digital block that includes registers to store the configuration settings of the radio.

These registers are accessed by a host microcontroller through an SPI style serial interface. The microcontroller’s

serial connections to the TRC103’s SDI, SDO and SCK pins are shown in Figure 2 (component values shown are

for 950-960 MHz operation; see Tables 53 and 54 for other frequency bands). On-chip regulators provide stable

supply voltages to sensitive blocks and allow the TRC103 to be used with supply voltages from 2.1 to 3.6 V. Most

blocks are supplied with a voltage below 1.6 V.

www.RFM.com

•

A two-stage IF filter followed by an amplifier chain for both the I and Q channels. Limiters at the end of

each chain drive the I and Q inputs to the FSK demodulator function. An RSSI signal is also derived from

the I and Q IF amplifiers to drive the OOK detector. The second filter stage in each channel can be con-

figured as either a third-order Butterworth low-pass filter for FSK operation or an image reject polyphase

band-pass filter for OOK operation.

An FSK arctangent type demodulator driven from the I and Q limiter outputs, and an OOK demodulator

driven by the RSSI signal. Either detector can drive a data and clock recovery function that provides

matched filter enhancement of the demodulated data.

A digital waveform generator that provides the I and Q base-band signals. This block includes digital-to-

analog converters and anti-aliasing low-pass filters.

A compound image-rejection mixer to up convert the base-band signal to the first IF at 1/9th of the carrier

frequency, and a second image-rejection mixer to up-convert the IF signal to the RF frequency

Transmitter driver and power amplifier stages to drive the antenna port

E-mail:

info@rfm.com

Technical support +1.800.704.6079

Figure 2

C17

1.5 pF

C16

DNP

TRC103 - 12/15/10

Page 6 of 64

TRC103 RFM, TRC103 Datasheet - Page 6

TRC103

Specifications of TRC103

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