FM TRANSMITTER & RECEIVER
FM-RTFQ SERIES
FM-RRFQ SERIES
H
YBRID
M
ODULES.
Technical Specifications
Electrical Characteristics
Supply Voltage (Vcc)
Min
4.5
Typical
Max
5.5
Dimension
V
Notes
5
5.7
Supply Current (Operating)
Supply Current (Standby)
6.8
100
mA
nA
315.00
433.92
868.35
Receiver Frequency
MHz
R.F Sensitivity (100% AM)
315 ,433MHZ versions
868MHz versions
3dB Bandwidth
-103
-100
dBm
KHz
Hz
+/-150
Data Rate
RRFQ1
RRFQ2
Turn on Time
Turn on Time
300
300
9,600
4,800
5
mSecs
mSecs
dBm
V
1
2
8
Level of Emitted Spectrum
Low Level Output Voltage
High Level Output Voltage
RSSI Output
-70
0.8
I = 200uA
I = 200uA
Vcc-1
-25
V
mA
oC
0.95
Operating Temperature Range
+80
Notes
1. Time from PD pin going high to stable data. (RRFQ1 only)
2. Time from Power ON to stable data.
Prototyping Hints
It is essential when building any Low Power Radio System that you have a ‘clean’ DC power source. Typically
the ripple voltage should be less than 10mV Peak to Peak. Normally a 470uF decoupling capacitor is sufficient
de-coupling for an AC derived DC power source. Small capacitors of 10-100nF can also be used across the
power supply to filter high frequency noise.
Never place a Transmitter or Receiver directly into Vero-Board or any similar prototyping board. This will
severely restrict the range. Rather, use small lengths of wire from the prototyping board to the pins of the
Transmitter or Receiver.
A useful antenna, for testing purposes, for both the Transmitter and Receiver on 433MHz is to use a piece of
wire 17.3cm long (23.8cm at 315MHz) soldered directly to the antenna pin.
Data should be encoded before it is transmitted over a wireless link to ensure reliability and reduce the effect of
interference and cross talk. A range of encoders IC’s are available from RF Solutions, please refer to the RF
Solutions website for further information.
DS069-8 Aug 07
©2007 Reg. No. 227 4001, England
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