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參數(shù)資料
| 型號: | T4227-FB |
| 廠商: | TEMIC SEMICONDUCTORS |
| 元件分類: | 消費家電 |
| 英文描述: | SPECIALTY CONSUMER CIRCUIT, PDSO16 |
| 封裝: | SSOP-16 |
| 文件頁數(shù): | 9/13頁 |
| 文件大小: | 105K |
| 代理商: | T4227-FB |
T4227
Preliminary Information
Rev. A2, 24-Jul-00
5 (13)
Design Hints for the Ferrite Antenna
The bar antenna is a very critical device of the complete
clock receiver. Observing some basic RF design rules
helps to avoid possible problems. The IC requires a
resonant resistance of 50 k
W to 200 kW. This can be
achieved by a variation of the L/C-relation in the antenna
circuit. It is not easy to measure such high resistances in
the RF region. A more convenient way is to distinguish
between the different bandwidths of the antenna circuit
and to calculate the resonant resistance afterwards.
Thus, the first step in designing the antenna circuit is to
measure the bandwidth. Figure 12 shows an example for
the test circuit. The RF signal is coupled into the bar
antenna by inductive means, e.g., a wire loop. It can be
measured by a simple oscilloscope using the 10:1 probe.
The input capacitance of the probe, typically about 10 pF,
should be taken into consideration. By varying the
frequency of the signal generator, the resonant frequency
can be determined.
Figure 12.
At the point where the voltage of the RF signal at the
probe drops by 3 dB, the two frequencies can then be
measured. The difference between these two frequencies
is called the bandwidth BWA of the antenna circuit. As the
value of the capacitor Cres in the antenna circuit is known,
it is easy to compute the resonant resistance according to
the following formula:
Rres=
1
2
p
BW
A
Cres
where
Rres is the resonant resistance,
BWA is the measured bandwidth (in Hz)
Cres is the value of the capacitor in the antenna circuit
(in Farad).
If high inductance values and low capacitor values are
used, the additional parasitic capacitance of the coil must
be considered. The Q value of the capacitor should be no
problem if a high Q type is used. The Q value of the coil
differs more or less from the DC resistance of the wire.
Skin effects can be observed but do not dominate.
Therefore, it should not be a problem to achieve the
recommended values of the resonant resistance. The use
of thicker wire increases the Q value and accordingly
reduces bandwidth. This is advantageous in order to
improve reception in noisy areas. On the other hand,
temperature compensation of the resonant frequency
might become a problem if the bandwidth of the antenna
circuit is low compared to the temperature variation of the
resonant frequency. Of course, the Q value can also be
reduced by a parallel resistor.
Temperature compensation of the resonant frequency is
a must if the clock is used at different temperatures.
Please ask your supplier of bar antenna material and of
capacitors for specified values of the temperature
coefficient.
Furthermore,
some critical parasitics have to be
considered. These are shortened loops (e.g., in the ground
line of the PCB board) close to the antenna and undesired
loops in the antenna circuit. Shortened loops decrease the
Q value of the circuit. They have the same effect like
conducting plates close to the antenna. To avoid
undesired loops in the antenna circuit, it is recommended
to mount the capacitor Cres as close as possible to the
antenna coil or to use a twisted wire for the antenna–coil
connection. This twisted line is also necessary to reduce
feedback of noise from the microprocessor to the IC
input. Long connection lines must be shielded.
A final adjustment of the time-code receiver can be
carried out by pushing the coil along the bar antenna.
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