ETC EVB7107

EVB7107
315/433MHz Transmitter
Evaluation Board Description
General Description
easily be done in order to modify the circuit for
analog FM. The evaluation board contains a
differential-drive loop antenna printed on the PCB
(Printed Circuit Board). The size of the loop
antenna is matched to the resonant frequency.
The TH7107 antenna board is designed to
optimally match the differential power amplifier
output to a loop antenna. The TH7107 can be
populated either for FSK, ASK or FM
transmission. The default population is for FSK or
ASK transmission. Adding a varactor diode can
Board layout data in Gerber format is available on request.
Features
! Adjustable equivalent radiated power (ERP)
range from -25 dBm to -10 dBm
! Adjustable current consumption from
4.8 mA to 11.5 mA
! Frequency deviation and center frequency
independently adjustable
! Differential output well-suited for loop antenna
! External clock available for µC drive,
down to 1.9 V supply
! ”Clock only” mode
! Conforms to EN 300 220 standard
! Fully integrated, PLL-stabilized VCO
! Flexible frequency range from
310 MHz to 440 MHz
! FSK through crystal pulling allows modulation
from DC to 20 kbit/s
! High deviation possible for wideband data
transmission
! ASK achieved by on/off keying of internal
power amplifier
! FM possible with external varactor
! Wide power supply range from 2.2 V to 5.5 V
! High over-all frequency accuracy
! Very low standby current
Ordering Information
Part No.
EVB7107-433-FSK
EVB7107-433-ASK
EVB7107-315-FSK
EVB7107-315-ASK
Applications
! General digital data transmission
! General analog audio signal transmission
! Keyless car and central locking
! Low-power telemetry
! Alarm and security systems
390120710701
Rev. 007
1 of 8
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
Theory of Operation
General
As depicted in Fig.1, the TH7107 transmitter
consists of a fully integrated voltage-controlled
oscillator (VCO), a divide-by-32 divider (div32), a
phase-frequency detector (PFD) and a charge
pump. An external loop filter at pin LF determines
the dynamic behaviour of the PLL and suppresses
reference spurious signals.
The VCO’s output signal feeds the power amplifier
(PA). RF signal power Po can be adjusted in six
steps from Po = –12 dBm to +2 dBm either by
changing the value of resistor RPS or by varying the
voltage VPS at pin PS. The open-collector differential
output (OUT1, OUT2) can be used to either directly
drive a loop antenna or to be converted to a singleended impedance by means of a balanced-tounbalanced (balun) transformer. For maximum
available output power, the differential output
should be matched to a load of approx. 1 kΩ.
Bandgap biasing ensures stable operation of the IC
at a power supply range of 2.2 V to 5.5 V.
FSK Modulation
A Colpitts crystal oscillator (XOSC) is used as the
reference oscillator of a phase-locked loop (PLL)
synthesizer. FSK modulation is achieved by pulling
the crystal (XTAL) through the data. So a CMOScompatible data stream applied at input DATA
digitally modulates the XOSC. Two external pulling
capacitors CX1 and CX2 allow the FSK deviation and
center frequency to be adjusted independently. At
DATA = LOW CX2 is connected in parallel to CX1
leading to the low-frequency component of the FSK
spectrum (fmin); while at DATA = HIGH CX2 is
deactivated and the XOSC is set to its high
frequency, leading to fmax.
An external reference signal can be directly ACcoupled to pin RO1. Then the TH7107 is used
without an XTAL. The reference signal has to
contain the FSK (or FM) and sets the carrier
frequency.
Frequency Modulation (FM)
For FM operation an external varactor is required. It
simply acts as a pulling capacitor connected in
series to the crystal. Then the analog modulation
signal, applied through a series resistor, directly
modulates the XOSC.
ASK Modulation
The TH7107 can be ASK-modulated by applying
data directly at pin PS. This turns the PA on and off
and therefore leads to an ASK signal at the output.
Mode Control Logic
The mode control logic allows four different modes
of operation as listed in the following table. The
mode control pins ENCK and ENTX are pulleddown internally. This guarantees that the whole
circuit is shut down if these pins are left floating.
The clock output CKOUT can be used to drive a µC.
This output can be activated by the ENCK pin as
required for any specific application. Clock
frequency is 1/4 of the reference crystal frequency.
The clock output is slew-rate limited in order to keep
spurious signal emission as low as possible. The
voltage swing at CKOUT depends on the capacitive
loading at this pin. It is approx. 2 Vpp at Cload = 5 pF.
ENCK
ENTX
Mode
Description
0
0
all OFF whole circuit in standby
0
1
TX only TX functionality only, no
clock available
1
0
clock
only
1
1
all ON TX functional and clock
available
TX in standby and clock
available
Table 1: Modes of operation
For more detailed information, please refer to the latest TH7107 data sheet revision.
.
390120710701
Rev. 007
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EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
ENTX
6
ENCK
7
VEE
11
OUT2
12
OUT1
13
2 SUB
CF2
RF1
CF1
LF1
3 DATA
CX1
4
CX2
RO2
5
XTAL
RO1
div 4
8
CKOUT
VCC 10
XOSC
1
PFD
div32
charge
pump
VCC 15
16 LF2
VCO
PS
9
PA
mode
control
RPS
VEE
14
VCC
Block Diagram
Fig. 1: TH7107 block diagram with external components
390120710701
Rev. 007
3 of 8
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
Circuit Diagram
C2
C1
RX
L1
C3
L2
C4
PS
CKOUT
XTAL
RF1
R3
CX3
CF2
8
ENCK
7
ENTX
6
RO1
5
4
RO2
3 DATA
SUB
2
1 LF1
RF2
CX2
9
10
VCC
VEE
OUT2
11
12
13
OUT1
14
VEE
15
VCC
LF2
16
RPS
CX1
CF1
V1
R1
R2
390120710701
Rev. 007
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1 2
CKOUT
GND
1 2 3
VCC
ENCK
GND
1 2
ENTX
VCC
1 2
FM/ASK
GND
1 2
FSK
GND
1 2
VCC
GND
C5
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
PCB Top View
433 MHZ
C2
C1
L2
L1
C4
RX
C3
RPS
RF2
16
9
1
R3
TH7107
8
CF2
CX1
Cx3
R1
V1
XTAL
R2
C5
GND
CKOUT
GND
ENCK
1
VCC
VCC
1
ENTX
GND
1
FM/ASK
GND
1
FSK
1
GND
1
VCC
Melexis
CX2
RF1
CF1
Board size is 48mm x 48mm
Board Connection
VCC
FSK
FM/ASK
CKOUT
Power supply (2.2 V to 5.5 V)
Input for FSK data (CMOS)
Input for FM signal (analog) or ASK data (CMOS)
Clock output (3.4 MHz)
390120710701
Rev. 007
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ENCK
ENTX
GND
Mode control pin (see table 1)
Mode control pin (see table 1)
Several ground pins
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
Board Component Values
Part
Size
Value
315 MHz
Value
433.6 MHz
Tolerance
CF1
0805
12 nF
10 nF
±10%
loop filter capacitor
CF2
0805
15 pF
12 pF
±10%
loop filter capacitor
±5%
XOSC capacitor for FSK (∆f = ±20 kHz)
XOSC capacitor for ASK, trimmed to fC
Description
CX1_FSK
0603
39 pF
39 pF
CX1_ASK
0603
68 pF
68 pF
±5%
CX2
0603
1 nF
1 nF
±5%
XOSC capacitor, only needed for FSK
CX3
0603
1 nF
1 nF
±10%
XOSC capacitor, only needed for FM
C1
1206
3.9 pF
3.9 pF
±2%
antenna resonance capacitor
C2
0805
3.9 pF
2.2 pF
±2%
antenna resonance capacitor
C3
0603
330 pF
330 pF
±10%
blocking capacitor
C4
0603
330 pF
330 pF
±10%
blocking capacitor
C5
1206
220 nF
220 nF
±20%
blocking capacitor
L1
0603
220 nH
220 nH
±10%
biasing inductor
L2
0603
220 nH
220 nH
±10%
biasing inductor
RF1
0805
2.0 kΩ
2.0 kΩ
±10%
loop filter resistor
RF2
0805
4.3 kΩ
4.3 kΩ
±10%
loop filter resistor
RPS
0805
56 kΩ
56 kΩ
±10%
power-select resistor
R1
0805
470 kΩ
470 kΩ
±10%
optional pull-up resistor, typically not needed
R2
0805
30 kΩ
30 kΩ
±10%
varactor bias resistor, only needed for FM
R3
0805
0Ω
0Ω
±10%
ASK jumper, only needed for ASK
RX
0603
±10%
SOD323
HC49/S
4.7 kΩ
BB535
9.8438 MHz
fundamental
wave
4.7 kΩ
V1
XTAL
13.5500 MHz
fundamental
wave
±30ppm
calibration
±30ppm
temp.
damping resistor
varactor diode, only needed for FM
crystal, Cload = 12 pF to 15 pF, C0, max = 7 pF,
Rm, max = 40 Ω
PCB
loop
antenna
PCB
loop
antenna
PCB
loop
antenna
long side
length
44 mm
44 mm
on FR4 PCB material
side length including length of C1 and C2
small side
length
20 mm
12 mm
on FR4 PCB material
Line width
2 mm
2 mm
on FR4 PCB material
The listed component values are default values. All values might be changed to fit to any specific application.
As for example FSK deviation can be set by varying CX1 and CX2, output power at FSK/FM transmission
can be changed through RPS or through RPS and R3 at ASK transmission, respectively.
Pads for C1 are for population of a fixed-value capacitor with size 1206 or a to use trimming capacitor either.
390120710701
Rev. 007
6 of 8
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
Package Information
E1 E
1 2 3
D
α
A1 A
L
b
e
Fig. 2: QSOP16
all Dimension in mm, coplanarity < 0.1mm
D
E1
E
A
A1
e
b
L
α
min
4.80
3.81
5.79
1.35
0.10
0.635
0.20
0.40
0°
max
4.98
3.99
6.20
1.75
0.25
0.30
1.27
8°
all Dimension in inch, coplanarity < 0.004”
390120710701
Rev. 007
min
0.189
0.150 0.228 0.0532 0.0040 0.025
0.008
0.016
0°
max
0.196
0.157 0.244 0.0688 0.0098
0.012
0.050
8°
7 of 8
EVB Description
Aug/02
EVB7107
315/433MHz Transmitter
Evaluation Board Description
Disclaimer
Devices sold by Melexis are covered by the warranty and patent indemnification provisions appearing in its
Term of Sale. Melexis makes no warranty, express, statutory, implied, or by description regarding the
information set forth herein or regarding the freedom of the described devices from patent infringement.
Melexis reserves the right to change specifications and prices at any time and without notice. Therefore, prior
to designing this product into a system, it is necessary to check with Melexis for current information. This
product is intended for use in normal commercial applications. Applications requiring extended temperature
range, unusual environmental requirements, or high reliability applications, such as military, medical lifesupport or life-sustaining equipment are specifically not recommended without additional processing by
Melexis for each application.
The information furnished by Melexis is believed to be correct and accurate. However, Melexis shall not be
liable to recipient or any third party for any damages, including but not limited to personal injury, property
damage, loss of profits, loss of use, interrupt of business or indirect, special incidental or consequential
damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical
data herein. No obligation or liability to recipient or any third party shall arise or flow out of Melexis’ rendering
of technical or other services.
© 2002 Melexis NV. All rights reserved.
For the latest version of this document. Go to our website at
www.melexis.com
Or for additional information contact Melexis Direct:
Europe and Japan:
All other locations:
Phone: +32 1367 0495
E-mail: [email protected]
Phone: +1 603 223 2362
E-mail: [email protected]
QS9000, VDA6.1 and ISO14001 Certified
390120710701
Rev. 007
8 of 8
EVB Description
Aug/02