SSM2412P 查看數據表(PDF) - Analog Devices
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SSM2412P Datasheet PDF : 12 Pages
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DIGITALLY-CONTROLLED ATTENUATOR
Figure 4 shows the usual approach to digitally-controlled at-
tenuation. With S1 closed, the signal passes unattenuated to the
output. With S1 open and S2 closed, the signal is attenuated by
R1 and R2. The advantage of this configuration is that the at-
tenuator current does not have to flow through the switches.
The disadvantage is that the output is undefined during the
switching period, which can be several milliseconds.
The low distortion characteristics of the SSM2402/SSM2412
enable the alternate arrangement of Figure 5 to be used. Now
only one switch is required to change between two gains, and
there is always a signal path to the output. Values for R2 will
typically be in the low kilohm range.
For more gain steps and higher attenuation, the ladder arrange-
ment of Figure 6 can be used. This enables a wide dynamic
range to be achieved without the need for large value resistors,
which would result in degradation of the noise performance.
Figure 4.
Figure 5.
SSM2402/SSM2412
HIGH PERFORMANCE STEREO ROUTING SWITCHER
The SSM2402 Dual Audio Switch comprises the nucleus for
this 16 channels-to-one high performance stereo audio routing
switcher, which features negligible noise and low distortion over
the frequency range of 20 Hz to 20 kHz. This performance is
achieved even while driving 600 Ω loads at signal levels up to
+30 dBu.
The SSM2402 affords a much simplified electrical design and
printed circuit board layout, along with reduced manufacturing
cost, when compared with discrete JFET circuits of similar per-
formance. The electrical performance of the design described is
vastly superior to CMOS switch designs, which are more prone
to failure resulting from electrical static discharge.
The switching control of the SSM2402 may be activated by
conventional mechanical switches or 5 volt TTL or CMOS logic
circuits. The application shown utilizes a simple mechanical
control switch for illustration purposes only. Many diverse X/Y
control schemes, destination control, or computer controlled
designs can be utilized.
The “T” configuration of the SSM2402 switch provides excel-
lent ON-OFF isolation. The SSM2402 also features ms ramped
turn on and ms ramped turn off for click-free switching. Addi-
tionally, the switch has a break-before-make switching sequence.
Both features become significant in large audio switching sys-
tems where the audio path can pass through multiple switching
elements. Such controlled switching is very important in large
systems used in broadcast program switching or in production
work.
The application circuit design also employs the SSM2015 bal-
anced input amplifier (Figure 7). The input impedance is high
(≈100 kΩ), balanced or unbalanced. The input circuit incorpo-
rates a single pole RFI filter with a cutoff frequency set at
145 kHz. In addition, the input circuit attenuates the signal by
25 dB and extends the common-mode input voltage range to
± 98 volts peak, with common-mode rejection greater than
70 dB from 20 Hz to 20 kHz. The SSM2015 is set to produce a
15 dB gain. The signal drive level into the SSM2402 switch is
then +10 dBu with a +20 dBu input level and +14 dBu peak,
well within ideal operating range. Good signal-to-noise is main-
tained, with generous head-room available by electing to use
± 18 V dc power supply voltages.
Figure 6.
REV. A
–9–
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