SSM2160S Analog Devices Inc, SSM2160S Datasheet - Page 10
SSM2160S
Manufacturer Part Number
SSM2160S
Description
IC BALANCE/VOL CTRL DGITL 24SOIC
Manufacturer
Analog Devices Inc
Type
Stereo Audio Volume Controlr
Datasheet
1.SSM2160SZ.pdf
(16 pages)
Specifications of SSM2160S
Rohs Status
RoHS non-compliant
Applications
Decoders, Receivers, Surround Systems
Mounting Type
Surface Mount
Package / Case
24-SOIC (7.5mm Width)
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SSM2160
Serial Data Input Format
The standard format for data sent to SSM2160 is an address
byte followed by a data byte. This is depicted in the truth table,
Figure 7. Two 8-bit bytes are required for each master and each
of the six channel updates. The first byte sent contains the address
and is identified by the MSB being logic high. The second byte
contains the data and is identified by the MSB being logic low.
The seven LSBs of the first data byte set the attenuation level
from 0 dB to –127 dB for the master. The five LSBs of the byte
set the channel gain levels from 0 dB to 31 dB.
Serial Data Control Inputs
The SSM2160 provides a simple 3-wire or 4-wire serial inter-
face—see the timing diagram in Figure 1. Data is presented to
the DATA pin and the serial clock to the CLK pin. Data may
be shifted in at rates up to 1 MHz (typically).
The shift register, CLK, is enabled when the WRITE input is
low. The WRITE thus serves as a chip select input; however, the
shift register contents are not transferred to the holding register
until the rising edge of LD. In most cases, WRITE and LD will
be tied together, forming a traditional 3-wire serial interface.
To enable a data transfer, the WRITE and LD inputs are driven
logic low. The 8-bit serial data, formatted MSB first, is input on
the DATA pin and clocked into the shift register on the falling
edge of CLK. The data is latched on the rising edge of WRITE
and LD.
dBu mV rms Master
0
–31
–28
Saturation Prevention
Unlike a passive potentiometer, the SSM2160 can give up to 31 dB
of gain, thereby creating a potential for saturating the VCAs,
resulting in an undesirable clipping or overload condition. Care-
ful choice of input signal levels and digital gain parameters will
eliminate the possibility. A few of the many acceptable gain and
attenuation settings that keep the signals within the prescribed
limits are shown in Table III. The input and output levels are
given in mV rms and dBu (0 dBu = 0.775 V rms).
Line one of the table: the master is not allowed to have less than
–31 dB attenuation, and the channel is allowed +31 dB of gain.
Since the net gain is zero, there is no possibility of overload with
the expected maximum input signal.
Line two of the table shows that input signal limited to –31 dBu
will allow +31 dB of channel gain and 0 dB of master attenuation.
With an input below –31 dBu, the output will never exceed
0 dBu, so no overloading is possible.
Line three of the table allows an input of –28 dBu, master
attenuation of 0 dB, and 31 dB channel gain. The output is a
maximum of 3 dBu (1.1 V rms), which is acceptable for power
supplies of ± 6 V or more. So long as V p-p < V
will be no overloading (see Table I).
Input
Table III. Input/Output Levels vs. Attenuation/Gain
775
22
31
–31
0
0
Gain/Loss
Channel Net
31
31
31
0
31
31
dBu
0
0
3
SUPPLY
Output
/4, there
mV rms
775
775
1100
–10–
If unity overall gain is required from the SSM2160, there should
be no net gain between the master (loss) and channel (gain), with
both at their lowest attenuation position. Minimum channel gain
is recommended for minimum distortion.
Control Range and Channel Tracking
Each channel VCA is controlled by its own DAC’s output, plus
the control signal from the master DAC. This is shown in Figure 8.
Channel DACs are configured to increase the gain of the VCA in
1 dB steps from 0 dB to 31 dB. Thus, the midpoint (15, or 16 if
preferred) should be chosen as the center setting of the electronic
balance controls. Since the master DAC feeds all summation
nodes, the attenuation of all VCAs simultaneously changes from
0 dB to the noise floor.
Maximum attenuation of all channels occurs when the master is
set to –127 dB attenuation, and the channel is set to 0 dB gain.
Minimum attenuation of all channels occurs when the master is
set at 0 dB, and the channel is set to 31 dB.
Once the channel-to-channel balance has been set, the master
may be changed without changing the balance. This is shown in
Figure 9.
Master/Channel Step Sizes
The details of the DAC control of the channel VCAs is depicted
in Figure 8. A 7-bit current output DAC and an op amp convert
the digitally commanded master control level to an analog voltage.
A capacitor across the feedback resistor limits the rate of change
at the output to prevent clicking. A 5-bit DAC converts the digi-
tally commanded channel control level to a voltage via a resistor R.
These two control signals sum in resistor R and are fed to the
channel VCA. Although we present the attenuation and gain as
two separate items, in fact, the VCA can be operated smoothly
V+
R
EXTERNAL
M
, R
MASTER
I
FS
DAC
C
R
SET
, C
C
ATTENUATION
Figure 9. Practical Control Range
Figure 8. VCA Control Scheme
CHANNEL
MASTER
CHANNEL
DAC
GAIN
–112
–128
SSM2160
R
+31
+16
–16
–32
–48
–64
–80
–96
M
C
0
NET GAIN/ATTEN
1 1 1 1 1 1
0 0 0 0 0 0
NOISE FLOOR
i
SUMMATION
RESISTOR
R
+31
+16
+31
+16
0
0
0 0 0 0 0
1 1 1 1 1
0 0 0 0 0
1 1 1 1 1
CHANNEL
GAIN
CHANNEL
GAIN
SIGNAL
REV. A
IN
OUT
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