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IA4320

Universal ISM Band FSK Transceiver



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IA4320 pdf
IFAS4K3R2t0eacSUehnievieevte4r rUs.acol mISM Band W I R E L E S SIA4D3A2T0A S H E E TDESCRIPTION
.DaIntegration’s IA4320 is a single chip, low power, multi-channel FSK receiver designed
for use in applications requiring FCC or ETSI conformance for unlicensed use in the
w315, 433, 868, and 915 MHz bands. Used in conjunction with IA4220/21, Integration
wAssociates’ FSK transmitters, the IA4320 is a flexible, low cost, and highly integrated
solution that does not require production alignments. All required RF functions are
wintegrated. Only an external crystal and bypass filtering are needed for operation.
mThe IA4320 has a completely integrated PLL for easy RF design, and its rapid
settling time allows for fast frequency hopping, bypassing multipath fading, and
ointerference to achieve robust wireless links. The PLL’s high resolution allows
.cthe usage of multiple channels in any of the bands. The baseband bandwidth (BW)
is programmable to accommodate various deviation, data rate, and crystal tolerance
requirements. The receiver employs the Zero-IF approach with I/Q demodulation,
therefore no external components (except crystal and decoupling) are needed in a
Utypical application. The IA4320 is a complete analog RF and baseband receiver
including a multi-band PLL synthesizer with an LNA, I/Q down converter mixers,
t4baseband filters and amplifiers, and I/Q demodulator.
The chip dramatically reduces the load on the microcontroller with integrated
edigital data processing: data filtering, clock recovery, data pattern recognition
and integrated FIFO. The automatic frequency control (AFC) feature allows using
ea low accuracy (low cost) crystal. To minimize the system cost, the chip can
provide a clock signal for the microcontroller, avoiding the need for two crystals.
hFor simple applications, the receiver supports a standalone operation mode. This
allows complete data receiver operation and control of four digital outputs based
Son the incoming data pattern without a microcontroller. In this mode, 12 or more
tapredefined frequency channels can be used in any of the four bands. For low power
applications, the device supports low duty-cycle operation based on the internal
wake-up timer.
aBLOCK DIAGRAM
.DIN1 13
wIN2 12
LNA
MIX I
AMP OC
MIX Q
Self cal.
AMP OC
ww omRFParts
PLL & I/Q VCO
with cal.
RSSI
BB Amp/Filt./Limiter
I/Q
Demod.
Data Filt
CLK Rec
clk
data
DCLK/
CFIL/
7 FFIT/
OUT2
DATA/
6 nFFS/
OUT2
FIFO
COMP
DQD
AFC
Data processing units
U.cCLK div
et48
eCLK/
taShLPDM
Xosc
9
XTL
WTM
with cal.
LBD
Low Power parts
Controller
Bias
15 1
2 34
5 16 10
ARSSI/ SDI/ SCK/ nSEL/ FFIT/ nIRQ/ VDI/ nRES/
FCS2 FCS0 FBS0 FBS1 SDO/ OUT1 FCS3 FCS1
OUT0
11 14
VSS VDD
PIN ASSIGNMENT
FCS0
FBS0
FBS1
OUT0
OUT1
OUT2
OUT3
LPDM
FCS3
FCS2
VDD
IN1
IN2
VSS
FCS1
XTL
SDI
SCK
nSEL
FFIT/SDO
nIRQ
DATA/nFFS
DCLK/CFIL/FFIT
CLK
VDI
ARSSI
VDD
IN1
IN2
VSS
nRES
XTL
Standalone
Mode
Microcontroller
Mode
See back page for ordering information.
FEATURES
• Fully integrated (low BOM, easy design-in)
• No alignment required in production
• Fast settling, programmable, high-resolution PLL
• Fast frequency hopping capability
• High bit rate (up to 115.2 kbps in digital mode and
256 kbps in analog mode)
• Direct differential antenna input
• Programmable baseband bandwidth (67 to 400 kHz)
• Analog and digital RSSI outputs
• Automatic frequency control (AFC)
• Data quality detection (DQD)
• Internal data filtering and clock recovery
• RX pattern recognition
• SPI compatible serial control interface
• Clock and reset signals for microcontroller
• 16 bit RX data FIFO
• Standalone operation mode without
microcontroller
• Low power duty-cycle mode (less than 0.5 mA
average supply current)
• Standard 10 MHz crystal reference
• Alternative OOK support
• Wake-up timer
• Low battery detector
• 2.2 to 5.4 V supply voltage
• Low power consumption (~9 mA in low bands)
• Low standby current (0.3 µA)
• Compact 16-pin TSSOP package
TYPICAL APPLICATIONS
• Remote control
• Home security and alarm
• Wireless keyboard/mouse and other PC peripherals
• Toy control
• Remote keyless entry
• Tire pressure monitoring
• Telemetry
• Personal/patient data logging
• Remote automatic meter reading
www.DaIA4320-DS Rev 1.29r 1005
PRELIMINARY
1
www.integration.com



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IA4320 pdf
IA4320
DETAILEDDESCRIPTION
General
The IA4320 FSK receiver is the counterpart of the IA4220 FSK
transmitter. It covers the unlicensed frequency bands at 315, 433, 868,
and 915 MHz. The device facilitates compliance with FCC and ETSI
requirements.
The programmable PLL synthesizer determines the operating frequency,
while preserving accuracy based on the on-chip crystal-controlled
reference oscillator. The PLL’s high resolution allows for the use of
multiple channels in any of the bands.
The receiver employs the Zero-IF approach with I/Q demodulation,
allowing the use of a minimal number of external components in a typical
application. The IA4320 consists of a fully integrated multi-band PLL
synthesizer, an LNA with switchable gain, I/Q down converter mixers,
baseband filters and amplifiers, and an I/Q demodulator followed
by a data filter.
The RF VCO in the PLL performs automatic calibration, which requires
only a few microseconds. Calibration always occurs when the
synthesizer begins. If temperature or supply voltage changes
significantly, VCO recalibration can be invoked easily. Recalibration
can be initiated at any time by switching the synthesizer off and back
on again.
LNA
The LNA has 250 Ohm input impedance, which works well with the
recommended antennas. (See Application Notes available from
www.integration.com.)
If the RF input of the chip is connected to 50 Ohm devices, an
external matching circuit is required to provide the correct matching
and to minimize the noise figure of the receiver.
The LNA gain (and linearity) can be selected (0, –6, –14, –20 dB
relative to the highest gain) according to RF signal strength. This is
useful in an environment with strong interferers.
Baseband Filters
The receiver bandwidth is selectable by programming the bandwidth
(BW) of the baseband filters. This allows setting up the receiver
according to the characteristics of the signal to be received.
An appropriate bandwidth can be selected to accommodate various
FSK deviation, data rate, and crystal tolerance requirements. The
filter structure is a 7-th order Butterworth low-pass with 40 dB
suppression at 2*BW frequency. Offset cancellation is accomplished
by using a high-pass filter with a cut-off frequency below 7 kHz.
Data Filtering and Clock Recovery
The output data filtering can be completed by an external capacitor
or by using digital filtering according to the final application.
Analog operation: The filter is an RC type low-pass filter and a
Schmitt-trigger (St). The resistor (10k) and the St is integrated
on the chip. An (external) capacitor can be chosen according to
the actual bit-rate. In this mode the receiver can handle up to
256 kbps data rate.
Digital operation: The data filter is a digital realization of an
analog RC filter followed by a comparator with hysteresis. In this
mode there is a clock recovery circuit (CR), which can provide
synchronized clock to the data. With this clock the received data
can fill the RX Data FIFO. The CR has three operation modes:
fast, slow, and automatic. In slow mode, its noise immunity is
very high, but it has slower settling time and requires more accurate
data timing than in fast mode. In automatic mode the CR
automatically changes between fast and slow modes. The CR starts
in fast mode, then automatically switches to slow mode after
locking.
(Only the data filter and the clock recovery use the bit-rate clock.
Therefore, in analog mode, there is no need for setting the correct
bit-rate.)
Data Validity Blocks
RSSI
A digital RSSI output is provided to monitor the input signal level.
It goes high if the received signal strength exceeds a given
preprogrammed level. An analog RSSI signal is also available. The
RSSI settling time depends on the filter capacitor used.
Voltage on ARRSI pin vs. Input RF power
RSSI
voltage
[V]
P1
P3 P2
P4
Input Power [dBm]
P1 -65 dBm
P2 -65 dBm
P3 -100 dBm
P4 -100 dBm
1300 mV
1000 mV
600 mV
300 mV
2



Part Number IA4320
Description Universal ISM Band FSK Transceiver
Maker Interation - Interation
Total Page 29 Pages
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