MC13175D Ver la hoja de datos (PDF) - LANSDALE Semiconductor Inc.
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MC13175D Datasheet PDF : 16 Pages
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LANSDALE Semiconductor, Inc.
ML13175/ML13176
Legacy Applications Information
Figure 21. ASK 320 MHz Application Circuit
Osc
1
Tank
Coilcraft
150–05J08
2
3
0.165µ
4
(2)
VEE
0.1µ
5
6
150p 1.0k
7
8
Rmod
3.3k
16
0.01µ
15
(4)
On–Off Keyed Input
TTL Level 10 kHz
VEE (1)
14
SM
Z = 50
A
RFOut
13
150p
f/N
RFC1
12
VCC
11
VEE
10
9
27k S1 (5)
0.1µ
100p
30p
(ML13176)
(ML13175)
VCC
ML13175–30p
ML13176–180p
0.01µ
0.82µ
ML13175
Crystal 1.0k
3rd Overtone
(3) ML13176
Crystal
Fundamental
10 MHz
VCC
40.0000 MHz
NOTES: 1. 50 Ω coaxial balun, 1/10 wavelength line (1.5" ) provides the best
match to a 50 Ω load.
2. Pins 5, 10 and 15 are ground and connnected to VEE which is
the component/DC ground plane side of PCB. These pins must
be decoupled to VCC; decoupling capacitors should be placed
as close as possible to the pins.
3. The crystal oscillator circuit may be adjusted for frequency with
the variable inductor (MC13175); 1.0 k resistor shunting the
crystal prevents it from oscillating in the fundamental mode.
Recommended source is Coilcraft “slot seven” 7.0 mm tuneable
inductor, part #7M3–821.
4. The On–Off keyed signal turns the output of the transmitter off and on with
TTL level pulses through Rmod at Pin 16. The "On" power and ICC is set
by the resistor which sets Imod = VTTL – 0.8 / Rmod. (see Figure 23).
5. S1 simulates an enable gate pulse from a microprocessor which will
enable the transmitter. (see Figure 4 to determine precise value of the
enabling resistor based on the potential of the gate pulse and the
desired enable.)
Figure 21 shows a typical application in which the output
power has been reduced for linearity and current drain. The
current draw on the device is 16 mA ICC (average) and –22.5
dBm (average power output) using a 10 kHz modulating rate
for the on–off keying. This equates to 20 mA and –2.3 dBm
“on”, 13 mA and –41 dBm “Off ”. The crystal oscillator
enable time is needed to set the acquisition timing. It takes
typically 4.0 msec to reach full magnitude of the oscillator
waveform. A square waveform of 3.0 V peak with a period
that is greater than the oscillator enable time is applied to the
Enable (Pin 11)
Page 13 of 16
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