FREESCALE MC33492DTB

MOTOROLA Freescale Semiconductor, Inc.
Order Number: MC33492/D
Rev. 3.3, 06/2001
Semiconductor Technical Data
TANGO3
MC33492
Preliminary
Freescale Semiconductor, Inc...
•
•
•
•
•
•
•
•
•
•
•
Switchable frequency bands
315-434MHz and 868MHz
OOK modulation
Adjustable output power range
Fully integrated VCO
Supply voltage range: 1.9-3.6V
Very low standby current: 0.1nA @ TA =25°C
Low supply voltage shutdown
Data clock output for microcontroller
Extended temperature range: -40°C to 125°C
Low external component count
Typical application compliant with ETSI standard
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PLL Tuned UHF Transmitter for
Data Transfer Applications
PIN CONNECTIONS
DATACLK
1
14
MODE
DATA
2
13
ENABLE
BAND
3
12
VCC
GND
4
11
GNDRF
XTAL1
5
10
RFOUT
XTAL0
6
9
VCC
REXT
7
8
CFSK
Ordering Information
Device
Ambiant
Temperature
Range
Package
MC33492
DTB
-40°C to
125°C
TSSOP14
Figure 1: Simplified block diagram
This document contains information on a new product under development. Motorola
reserves the right to change or discontinue this product without notice.
© Motorola, Inc., 2001. All rights reserved.
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MC33492
Freescale Semiconductor,
Inc.
Pin
Name
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DATACLK
DATA
BAND
GND
XTAL1
XTAL0
REXT
CFSK
VCC
RFOUT
GNDRF
VCC
ENABLE
MODE
Description
Clock output to the microcontroller
Data input
Frequency band selection
Ground
Reference oscillator input
Reference oscillator output
Power amplifier output current setting input
Non connected
Power supply
Power amplifier output
Power amplifier ground
Power supply
Enable input
Modulation type selection input
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PIN FUNCTION DESCRIPTION
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Value
Unit
VCC
VGND - 0.3 to 3.7
V
VGND - 0.3
to VCC + 0.3
V
ESD HBM Voltage Capability on Each Pin (note 1)
±2000
V
ESD MM Voltage Capability on Each Pin (note 2)
±150
V
260
°C
Supply Voltage
Voltage Allowed on Each Pin
Solder Heat Resistance Test (10 s)
Storage Temperature
Ts
-65 to +150
°C
Junction Temperature
Tj
+150
°C
Notes:
1 Human Body model, AEC-Q100-002 Rev. C.
2 Machine Model, AEC-Q100-003 Rev. D.
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PLL Tuned UHF Transmitter
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TRANSMITTER FUNCTIONAL DESCRIPTION
MC33492 is a PLL tuned low power UHF transmitter. The different modes of operation are controlled by the
microcontroller through several digital input pins. The power supply voltage ranges from 1.9V to 3.6V allowing
operation with a single lithium cell.
PHASE LOCKED LOOP AND LOCAL OSCILLATOR
The VCO is a completely integrated relaxation oscillator. The Phase Frequency Detector (PFD) and the loop
filter are fully integrated. The exact output frequency is equal to: fRFOUT = fXTAL x PLL divider ratio. The frequency
band of operation is selected through the BAND pin.
Table 1: Frequency band selection and associated divider ratios
Frequency
PLL divider
Crystal oscillator
BAND input level
band (MHz)
ratio
frequency (MHz)
315
9.84
High
32
434
13.56
Low
868
64
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Table 1 provides details for each frequency band selection.
An out-of-lock function is performed by monitoring the PFD output voltage. When it exceeds its limits, the RF
output stage is disabled.
RF OUTPUT STAGE
The output stage is a single ended square wave switched current source. Harmonics will be present in the
output current drive. Their radiated absolute level depends on the antenna characteristics and output power.
Typical application demonstrates compliance to ETSI standard.
A resistor Rext connected to the REXT pin controls the output power allowing a tradeoff between radiated
power and current consumption.
The output voltage is internally clamped to Vcc ±2Vbe (typ. Vcc ±1.5V @ TA=25°C).
MODULATION
A low logic level has to be applied on pin MODE, to select the On Off Keying (OOK) modulation. This
modulation is performed by switching on/off the RF output stage. The logic level applied on pin DATA controls the
output stage state:
DATA=0 -> output stage off
DATA=1 -> output stage on
MICROCONTROLLER INTERFACE
Four digital input pins (ENABLE, DATA, BAND and MODE) enable the circuit to be controlled by a
microcontroller. It is recommended to configure the band frequency and the modulation type before enabling the
circuit. In a typical application the input pin MODE is hardwired to ground. To reduce total current consumption, it
is recommended to connect pin BAND according to the following table 2.
Table 2: Digital pins connecting recommendation
434MHz Frequency band
BAND = I/O or ENABLE
868MHz Frequency band
BAND = GND
One digital output (DATACLK) provides to the microcontroller a reference frequency for data clocking. This
frequency is equal to the crystal oscillator frequency divided by 64 (see table 3).
Table 3: DATACLK frequency versus crystal oscillator frequency
Crystal oscillator frequency (MHz)
DATACLK frequency (kHz)
9.84
154
13.56
212
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STATE MACHINE
Figure 2 details the main state machine.
Figure 2: Main state machine
Power ON
AND ENABLE=0
State 1
Standby mode
ENABLE=1
State 2
PLL enabled
but out of lock in range
PLL in
lock in range
ENABLE=0
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ENABLE=0
State 6
Shutdown mode
VBattery < VShutdown
State 4
Transmission mode
PLL out of
lock in range
PLL in
lock in range
State 5
PLL out of lock in range
No RF output
State 1:
The circuit is in standby mode and draws only a leakage current from the power supply.
State 2:
In this state, the PLL is enabled but out of the lock in range. Therefore the RF output stage is switched off
preventing any data transmission. Data clock is available on pin DATACLK. In normal operation, this state is
transitional.
State 4:
In this state, the PLL is within the lock in range.
If t<tPLL_lock_in then the PLL can still be in acquisition mode.
If t≥tPLL_lock_in then the PLL is locked.
Data entered on pin DATA is output on pin RFOUT.
State 5:
An out-of-lock condition has been detected. The RF output stage is switched off preventing any data
transmission. Data clock is still available on pin DATACLK.
State 6:
When the supply voltage falls below the shutdown voltage threshold (VSDWN), the whole circuit is switched off.
Applying a low level on pin ENABLE is the only condition to get out of this state.
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Figure 3 shows the waveforms of the main signals for a typical application cycle
Figure 3: Signals waveforms and timings definition
ENABLE
DATACLK
tDATACLK_settling
tPLL_lock_in
€
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fcarrier
fcarrier
RFOUT
State 1
State 2
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DATA
State 4
State 1
€ : PLL locked
POWER MANAGEMENT
When the battery voltage falls below the shutdown voltage threshold (VSDWN) the whole circuit is switched off.
It has to be noted that after this shutdown, the circuit is latched until a low level is applied on pin ENABLE (see
state 6 of the state machine).
DATA CLOCK
At start-up data clock timing is valid after the data clock settling time. As clock is switched off asynchronously
the last period length cannot be guaranteed.
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MC33492
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ELECTRICAL CHARACTERISTICS
Unless otherwise specified: Vcc=3V, Rext=12kΩ, operating temperature range TA=-40°C to +125°C, RF output
frequency fcarrier=433.92MHz, reference frequency freference=13.56MHz, output load = 50Ω resistor (see figure 7).
Values refer to the circuit shown in the recommended application schematic (see figure 10).
Typical values reflect average measurement at VCC=3V and TA=25°C.
Limits
Parameter
Unit
Min.
Typ.
Max.
TA≤25°C
-
0.1
5
nA
TA=60°C
-
7
30
nA
TA=85°C
-
40
100
nA
1.4
TA=125°C
-
800
1700
nA
1.7
315 & 434 bands,
continuous wave, TA=25°C
-
11.6
13.5
mA
1.5
315 & 434 bands,
DATA=0, -40°C≤TA≤125°C
-
4.4
6.0
mA
868MHz band,
DATA=0, -40°C≤TA≤125°C
-
4.6
6.2
mA
1.8
315 & 434 bands,
continuous wave, -40°C≤TA≤125°C
-
11.6
14.9
mA
1.9
868MHz band,
continuous wave, -40°C≤TA≤125°C
-
11.8
15.1
mA
-
3
3.6
V
General Parameters
1.1
1.2
1.3
1.6
1.10
Supply Current in Standby Mode
Supply Current
in Transmission Mode
Supply Voltage
1.11
TA=-40°C
-
2.04
2.11
V
1.12
TA=-20°C
-
1.99
2.06
V
TA=25°C
-
1.86
1.95
V
TA=60°C
-
1.76
1.84
V
1.15
TA=85°C
-
1.68
1.78
V
1.16
TA=125°C
-
1.56
1.67
V
1.13
1.14
Shutdown Voltage Threshold
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Test Conditions, Comments
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MC33492
Freescale Semiconductor,
Inc.
ELECTRICAL CHARACTERISTICS
Unless otherwise specified: Vcc=3V, Rext=12kΩ, operating temperature range TA=-40°C to +125°C, RF output
frequency fcarrier=433.92MHz, reference frequency freference=13.56MHz, output load = 50Ω resistor (see figure 7).
Values refer to the circuit shown in the recommended application schematic (see figure 10).
Typical values reflect average measurement at VCC=3V and TA=25°C.
Limits
Parameter
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2.1
Unit
Min.
Typ.
Max.
12
-
21
kΩ
RF Parameters
Rext value
2.2
315 & 434MHz bands,
with 50Ω matching network
-
5
-
dBm
2.3
868MHz band,
with 50Ω matching network
-
1
-
dBm
2.4
315 & 434MHz bands,
-40°C≤TA≤125°C
-3
0
3
dBm
2.8
868MHz band,
-40°C≤TA≤125°C
-7
-3
0
dBm
315 & 434MHz bands,
with 50Ω matching network
-
-0.35
-
dB/kΩ
mA/kΩ
315 & 434MHz bands,
with 50Ω matching network
-
-34
-
dBc
868MHz band,
with 50Ω matching network
-
-49
-
dBc
2.15
315 & 434MHz bands
-
-23
-17
dBc
2.16
868MHz band
-
-38
-27
dBc
2.17
315 & 434MHz bands,
with 50Ω matching network
-
-32
-
dBc
868MHz band,
with 50Ω matching network
-
-57
-
dBc
2.19
315 & 434MHz bands
-
-21
-15
dBc
2.20
868MHz band
-
-48
-39
dBc
315 & 434MHz bands
-
-36
-24
dBc
868MHz band
-
-29
-17
dBc
315 MHz band
-
-37
-30
dBc
434MHz band
-
-44
-34
dBc
868MHz band
-
-37
-27
dBc
315MHz band
-
-62
-53
dBc
434MHz band
-
-80
-60
dBc
868MHz band
-
-45
-39
dBc
315 & 434MHz bands,
±175kHz from f carrier
-
-75
-68
dBc/Hz
868MHz band,
±175kHz from f carrier
-
-73
-66
dBc/Hz
fcarrier within 30kHz from the final value,
crystal series resistor=150Ω
-
350
1500
µs
Output Power
2.12
Current & Output Power
Variation vs Rext value
2.13
2.14
2.18
2.21
2.22
2.23
2.24
2.25
2.41
2.26
2.27
Harmonic 2 Level
Harmonic 3 Level
Spurious Level
@ fcarrier ±f DATACLK
Spurious Level
@ fcarrier ±f reference
Spurious Level
@ fcarrier/2
2.30
Phase Noise
2.31
2.32
PLL Lock in Time,
tPLL_lock_in
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Test Conditions, Comments
MC33492
Freescale Semiconductor,
Inc.
ELECTRICAL CHARACTERISTICS
Unless otherwise specified: Vcc=3V, Rext=12kΩ, operating temperature range TA=-40°C to +125°C, RF output
frequency fcarrier=433.92MHz, reference frequency freference=13.56MHz, output load = 50Ω resistor (see figure 7).
Values refer to the circuit shown in the recommended application schematic (see figure 10).
Typical values reflect average measurement at VCC=3V and TA=25°C.
Limits
Test Conditions, Comments
Unit
Min.
Typ.
Max.
2.33
XTAL1 Input Capacitance
-
1
-
pF
2.34
Crystal Resistance
-
20
200
Ω
2.35
Modulation Depth
75
90
-
dBc
2.40
Data Rate
Manchester coded
-
-
10
kBd
2.41
Data to RF delay difference
between falling and rising edges
From 50% of data edge to
corresponding RF signal
enveloppe edge (see note 1)
3
5
8
µs
0
-
0.3 x
VCC
V
0.7 x
VCC
-
VCC
V
-
-
150
mV
-
-
100
nA
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Parameter
Note 1: This parameter can have a slight impact on data duty cycle.
3
Microcontroller Interfaces
3.1
Input Low Voltage
3.2
Input High Voltage
3.3
Input Hysteresis Voltage
3.4
Input Current
3.5
ENABLE Pull Down Resistor
-
180
-
kΩ
3.6
DATACLK Output Low Voltage
0
-
0.25 x
VCC
V
0.75 x
VCC
-
VCC
V
Cload = 2pF, measured from 20% to 80%
of the voltage swing
-
250
500
ns
-
150
400
ns
45% < Duty Cycle fDATACLK < 55%
-
800
1800
µs
Pins BAND, MODE, ENABLE, DATA
Pins BAND, MODE, DATA = 1
Cload = 2pF
3.7
DATACLK Output High Voltage
3.8
DATACLK Rising Time
3.9
DATACLK Falling Time
3.10
DATACLK Settling Time,
tDATACLK_settling
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RF OUTPUT SPECTRUM
Following are spectrums of transmitter carrier, measured in conduction. Three different spans have been
used. The 5MHz span spectrum (figure 4) shows phase noise response close to the RF carrier, and the noise
suppression within the PLL loop bandwidth. The 50MHz span spectrum (figure 5) shows both phase noise and
reference spurious. Finally figure 6 shows second and third harmonics of carrier.
All these spectrums are measured in OOK modulation, at DATA=1.
Resolution
bandwidth:
100kHz
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Figure 4: RF spectrum at 434MHz frequency band displayed with a 5MHz span
Resolution
bandwidth:
30kHz
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Figure 5: RF spectrum at 434MHz frequency band displayed with a 50MHz span
Figure 6: RF spectrum at 434MHz frequency band displayed with a 1.5GHz span
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OUTPUT POWER MEASUREMENT
The RF output levels given in the electrical characteristics section are measured whith a 50Ω load directly
connected to the pin RFOUT as shown below in figure 7. This wideband coupling method gives results
independant of the application.
Figure 7: Output power measurement configurations
VCC
Impeder: TDK MMZ1608Y102CTA00
RFOUT
RF output
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50 Ω
The configuration shown in figure 8-a provides a better efficiency in terms of output power and harmonics
rejection. Schematic on figure 8-b gives the equivalent circuit of the pin RFOUT and impeder as well as the
matching network components for 434MHz frequency band. Note that the impeder is moved to the load side to
decrease its influence (similar to DC bias through the antenna).
Figure 8: Ouput characteristic and matching network for 434MHz frequency band
VCC
Impeder: TDK MMZ1608Y102CTA00
RFOUT
RF Output
Matching
Network
(a)
50 Ω
Matching
network
330pF
L1
39nH
(b)
C3
50Ω
3kΩ
C0
1.5pF
R0
250Ω
Ri
RL
Impeder
Load
RFOUT pin
Figure 9 gives the output power versus the Rext resistor value with 50Ω load and with matching network.
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Figure 9: Output power at 434MHz frequency band versus Rext value
Output power measurement in typical conditions (434MHz - Vcc=3V - 25°C)
REXT SPECIFIED RANGE
8
6
Output power when matched (dBm)
-0.35db/kΩ # -0.35mA/kΩ
4
2
RFOUT
Level (dBm)
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0
-2
Output power on 50Ω load (dBm)
-4
-6
6
9
12
15
Rext (kΩ )
18
21
24
The 50Ω matching network used for the 868MHz band is similar to the 434MHz, except components values:
L1 is changed to 8.2nH and C3 to 470pF
The expected gain of this 868MHz matching network is 4dB (typical) compared to unmatched boards.
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APPLICATION SCHEMATIC
Figures 10 show application schematic for the 315 & 434MHz frequency bands. For 868MHz band
application, the input pin BAND must be wired to ground. See component description on table 4.
Component
Y1
R2
C6
C10
C7
C8
C11
Table 4: External components description
Function
Value
For 315MHz band: 9.84,
see table 5
For 434MHz band: 13.56,
Crystal
see table 5
For 868MHz band: 13.56,
see table 5
RF output level setting
12
resistor (Rext)
Crystal load capacitor
Power supply
decoupling capacitor
Low pass filter capacitor
for spurious reduction
at ±freference
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Figure 10: Application schematic for 315 & 434MHz frequency bands
Unit
MHz
MHz
MHz
kΩ
8.2
4.7
22
100
pF
µF
nF
pF
47
pF
Examples of crystal reference are given below (see characteristics on table 5) for different application bands:
- at 315MHz band (freference = 9.84375MHz, -40°C≤TA≤85°C): NDK LN-G102-950,
- at 434/868MHz bands (freference = 13.56MHz, -40°C≤TA≤125°C): NDK NX8045GA S1-40125-8050-12
Table 5: Recommended crystal characteristics (SMD ceramic package)
Parameter
NDK LN-G102-950 (315MHz)
NDK S1-40125-8050-12 (434 & 868MHz)
Load capacitance
12
12
Motional capacitance
3.33
4.4
Static capacitance
1.05
1.5
Loss resistance
28
18.5
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PLL Tuned UHF Transmitter
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Unit
pF
fF
pF
Ω
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MC33492
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COMPLETE APPLICATION SCHEMATIC WITH PCB
Figure 11 gives a complete application schematic using a Motorola MC68HC908RK2 microcontroller.
fcarrier= 433.92MHz. C2 to C5 capacitors can be removed if switches debounce is done by software.
Figure 11: Complete application schematic for 434MHz frequency band
Vbat
SW1
SW1a
SW2a
SW2
Vbat
LED1
1
B1
C2
C3
C4
C5
2.2nF
2.2nF
2.2nF
2.2nF
2
R1
750
Vbat
U1
2
3
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U2
1
2
3
4
5
6
7
8
9
10
PTA0
PTA1/KBD1
PTB0/MCLK
PTA2/KBD2
PTB1
PTA3/KBD3
PTB2/TCH0
PTA4/KBD4
PTB4/TCH1
PTA5/KBD5
PTB5
PTA6/KBD6
PTB3/TCLK
PTA7
OSC1
RST
OSC2
IRQ1
VSS
VDD
MC68HC908RK2
4
C6 8.2pF
20
5
19
Y1
6
18
13.56MHz
7
17
R2
16
DATACLK
DATA
BAND
MODE
ENABLE
VCC
GND
GNDRF
XTAL1
RFOUT
XTAL0
VCC
REXT
CFSK
MC33492
12K
14
C7
22nF
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1
13
12
11
10
9
C9
2.2pF
8
C8
100pF
15
14
13
12
11
Vbat
C8
100nF
Figure 12 shows a two buttons keyfob board. Real size is 30 x 45 millimeters.
Figure 12: Two button keyfob board layout
Battery
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CASE OUTLINE DIMENSIONS
14X K REF
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSION A DOES NOT INCLUDE MOLD
FLASH, PROTRUSIONS OR GATE BURRS.
MOLD FLASH OR GATE BURRS SHALL NOT
EXCEED 0.15 (0.006) PER SIDE.
4. DIMENSION B DOES NOT INCLUDE
INTERLEAD FLASH OR PROTRUSION.
INTERLEAD FLASH OR PROTRUSION SHALL
NOT EXCEED
0.25 (0.010) PER SIDE.
5. DIMENSION K DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.08 (0.003) TOTAL
IN EXCESS OF THE K DIMENSION AT
MAXIMUM MATERIAL CONDITION.
6. TERMINAL NUMBERS ARE SHOWN FOR
REFERENCE ONLY.
7. DIMENSION A AND B ARE TO BE
0.15 (0.006)T U S
N
2X
L/2
14
0.25 (0.010)
8
M
B
-U-
L
PIN 1
IDENT.
F
7
1
0.15 (0.006)T U S
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N
DETAIL E
K
A
-V-
K1
J J1
SECTION N-N
-W-
C
0.10 (0.004)
-T- SEATING
D
PLANE
G
H
DETAIL E
DIM
A
B
C
D
F
G
H
J
J1
K
K1
L
M
MILLIMETERS
MIN
MAX
4.90
5.10
4.30
4.50
--1.20
0.05
0.15
0.50
0.75
0.65 BSC
0.50
0.60
0.09
0.20
0.09
0.16
0.19
0.30
0.19
0.25
6.40 BSC
0°
8°
INCHES
MIN MAX
0.193 0.200
0.169 0.177
--- 0.047
0.002 0.006
0.020 0.030
0.026 BSC
0.020 0.024
0.004 0.008
0.004 0.006
0.007 0.012
0.007 0.010
0.252 BSC
0°
8°
Non Disclosure Agreement Required
0.10 (0.004)M T U S V S
CASE 948G-01
ISSUE O
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PLL Tuned UHF Transmitter
for Data Transfer Applications
15
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MC33492/D
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