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參數(shù)資料
| 型號(hào): | ACE9030 |
| 廠商: | Mitel Networks Corporation |
| 英文描述: | Radio Interface and Twin Synthesiser |
| 中文描述: | 無(wú)線接口和雙合成器 |
| 文件頁(yè)數(shù): | 23/39頁(yè) |
| 文件大小: | 379K |
| 代理商: | ACE9030 |
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ACE9030
23
the example gives 0·045 V.
Removing the arbitrary 1 kHz, the gain at the exclusive-
OR gate is given by:
Gain = 2 x Delay in I.F. cycles x V
/ I.F.
with the units of volts per Hertz of deviation.
To be strict, the pulse width is reduced for a positive
deviation, so the gain is negative, but this may be ignored as
the audio polarity is not of any relevance and also is inverted
several times before driving the earpiece.
Using the delay lengths from table 3 the range of gains (at
the exclusive-OR gate) can be listed and then compared with
the lowest as shown in table 5.
This shows a gain range of 5·6 dB which must be allowed
for in the later stages, but also gives absolute gains which
show the discriminator could cause saturation in the following
stage if a high deviation signal is received. For example
speech can be set to 8 kHz deviation so the maximum voltage
(with V
at 3·75 V) is 70·3 x 8000
μ
V = 562 mV peak. With ST
and SAT the total deviation can become 14·5 kHz, potentially
giving 1·019 V peak signal, or over 2 V peak-to-peak and
leading to possible saturation. There is also the full V
switching waveform to handle. Other supply levels will simply
scale the signals and not change the saturation problem. A
6 dB attenuator is included in the low pass filter that follows the
discriminator output driver to avoid any possibility of saturation
in the audio reconstruction filter. This attenuator is a simple 2:1
potential divider so will also halve the D.C. level of the signal.
A further effect to be considered is the D.C. offset that
results from using delays that are not ideal multiples of cycles
of the AFCIN frequency. It can be seen from the Timing
Diagram, figure 19, that when the delay is exactly an odd
number of quarter cycles each half cycle at one end of the
delay will symmetrically straddle an edge the other end of the
delay so an unmodulated input will give an output with a 1:1
mark:space ratio; this corresponds to a mid-supply level at the
attenuator input, see figure 20. The attenuator output will then
be centred at V
/4, so the nominal D.C. gain, 2 x, of the
bandpass filter will give the AUDIO output centred at mid-
supply.
When a mode is selected with an odd number of thirds of
a cycle the output mark:space ratio is offset, and approximat-
ing 2·363 as
7
/
3
or 3·677 as
11
/
3
the effect can be seen in
figure 21.
The signal will now be centred on a level at
2
/
3
or
1
/
of
supply, at the attenuator input (giving
1
/
3
or
1
/
6
x V
at its
output) and by adjusting the D.C. gain of the bandpass filter it
is possible to set the AUDIO to a mid-supply centre if required.
The components used in the bandpass filter feedback
circuit should be chosen to both set the pass band frequencies
(for example 50 Hz to 30 kHz) and also to set the A.C. and D.C.
gains to complement the discriminator’s gain and D.C. offset.
Typcal A.C. gain at mid-band is around 20 dB. This filter is not
of high enough order to remove all out of band noise without
distorting the speech channel so to get the final band limited
signal precision high order filters such as in the ACE9040 are
required.
The ACE9030 is specified with the following component
values (see fig 18):
R1 = 47k
R2 = 100k
R3 = 33k
C1 = 82pF
C2 = 100nF
These values are compatible with AMPS using a 14.85MHz
reference crystal and 450kHz IF. Resistors R2 and R3
determine the dc gain and can be used to compensate for the
dc offset of the demodulated output. Resistors R2 and R3, R1
determine the mid band ac gain of the band pass filter.
Fig. 21 Demodulation With Odd Thirds Of A Cycle
Fig. 20 Demodulation With Odd Number Of Quarter Cycles
AFCIN
AFCIN DELAYED
BY 2 / CYCLES:
OUTPUT
(EX-OR)
MARK:SPACE
RATIO = 1:1
MARK:SPACE
RATIO = 1:1
MARK:SPACE
RATIO = 2:1
MARK:SPACE
RATIO = 1:2
AFCIN
AFCIN DELAYED
BY 7/3 CYCLES:
OUTPUT
(EX-OR)
OR BY 11/3
CYCLES:
OR BY 2 /
CYCLES:
34
相關(guān)PDF資料 |
PDF描述 |
|---|---|
| ACE9040 | Audio Processor Advance Information |
| ACE9050 | System Controller and Data Modem(為蜂窩式手機(jī)提供控制和邏輯接口功能的系統(tǒng)控制器和數(shù)據(jù)調(diào)制解調(diào)器) |
| ACE9050 | System Controller and Data Modem Advance Information |
| ACFA-450 | AM CERAMIC FILTERS |
| ACFA-455 | AM CERAMIC FILTERS |
相關(guān)代理商/技術(shù)參數(shù) |
參數(shù)描述 |
|---|---|
| ACE9030IGFP1N | 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Parallel-Input Frequency Synthesizer |
| ACE9030IGFP1R | 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Parallel-Input Frequency Synthesizer |
| ACE9030IGFP2N | 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Parallel-Input Frequency Synthesizer |
| ACE9030IGFP2R | 制造商:未知廠家 制造商全稱:未知廠家 功能描述:Parallel-Input Frequency Synthesizer |
| ACE9030M | 制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:Radio Interface and Twin Synthesiser |
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