MRF89XAM9A-I/RM Microchip Technology, MRF89XAM9A-I/RM Datasheet - Page 11
MRF89XAM9A-I/RM
Manufacturer Part Number
MRF89XAM9A-I/RM
Description
WiFi / 802.11 Modules & Development Tools 915MHz Sub-GHz Transceiver Mod
Manufacturer
Microchip Technology
Datasheet
1.MRF89XAM9A-IRM.pdf
(142 pages)
Specifications of MRF89XAM9A-I/RM
Modulation Type
FSK, OOK
Data Rate Max
200Kbps
Sensitivity
-113dBm
Supply Voltage Range
2.1V To 3.6V
Module Interface
SPI, 4-Wire
Supply Current
25mA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Quantity
Price
Company:
Part Number:
MRF89XAM9A-I/RM
Manufacturer:
MICROCHIP
Quantity:
12 000
Part Number:
MRF89XAM9A-I/RM
Manufacturer:
MICROCHI
Quantity:
20 000
2.0
The MRF89XA is an integrated, single chip, low-power
ISM band sub-GHz transceiver. A detailed block
diagram of the MRF89XA is illustrated in Figure 2-1.
The frequency synthesizer is clocked by an external
12.8 MHz crystal, and frequency ranges from 863-870
MHz, 902-928 MHz and 950-960 MHz are possible.
The MRF89XA receiver employs a superheterodyne
architecture. The first IF is one-ninth of the RF
frequency (approximately 100 MHz). The second down
conversion down converts the I and Q signals to
baseband in the case of the FSK receiver (zero-IF) and
to a low-IF (IF2) for the OOK receiver. After the second
down-conversion stage, the received signal is channel
select filtered and amplified to a level adequate for
demodulation. Both FSK and OOK demodulation are
available. Image rejection is achieved by using a SAW
filter.
The baseband I and Q signals at the transmitter side are
digitally generated by a Direct Digital Synthesis (DDS)
whose Digital-to-Analog Converters (DAC) followed by
two anti-aliasing low-pass filters transform the digital
signal into analog In-Phase (I) and Quadrature (Q)
components with frequency as the selected Frequency
Deviation (f
OOK modes of operation. The transmitter has a typical
output power of +12.5 dBm. An internal transmit/receive
switch combines the transmitter and receiver circuits into
a single-ended RFIO pin (pin 31). The RFIO pin is
connected through the impedance matching circuitry to
an external antenna. The device operates in the
low-voltage range of 2.1V to 3.6V, and in Sleep mode, it
operates at a very low-current state, typically 0.1 µA.
© 2010 Microchip Technology Inc.
HARDWARE DESCRIPTION
dev
). The transmitter supports both FSK and
Preliminary
The frequency synthesizer is based on an integer-N
PLL having PLL bandwidth of 15k Hz. 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 running at 12.8 MHz.
The MRF89XA 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 a Serial Peripheral Interface
(SPI). The quality of the data is validated using the
RSSI and bit synchronizer blocks built into the
transceiver. Data is buffered in a 64-byte transmitter or
receiver FIFO. The transceiver is controlled through a
4-wire SPI, interrupts (IRQ0 and IRQ1), PLOCK, DATA
and Chip Select pins for SPI are illustrated in
Figure 2-1. On-chip regulators provide stable supply
voltages to sensitive blocks and allow the MRF89XA to
be used with supply voltages from 2.1 to 3.6V. Most
blocks are supplied with a voltage below 1.4V.
The MRF89XA supports the following feature blocks:
• Data Filtering and Whitening
• Bit Synchronization
• 64-byte Transmit/Receive FIFO Buffer
• General Configuration Registers
These features reduce the processing load, which
allows the use of simple, low-cost 8-bit microcontrollers
for data processing.
MRF89XA
DS70622B-page 11
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