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SSM2165ADN/a15avaiComplete Microphone Conditioner in an 8-Lead Package with Variable Compression & Noise Gating


SSM2165 ,Complete Microphone Conditioner in an 8-Lead Package with Variable Compression & Noise GatingCHARACTERISTICSThermal ResistancePIN FUNCTION DESCRIPTIONS8-Lead Plastic DIPθ . . . . . . . . . . . ..
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SSM2165
Complete Microphone Conditioner in an 8-Lead Package with Variable Compression & Noise Gating
REV.B
Microphone Preamplifier with
Variable Compression and Noise Gating
FUNCTIONAL BLOCK DIAGRAM
FEATURES
Complete Microphone Conditioner in an 8-Lead Package
Single 5 V Operation
Preset Noise Gate Threshold
Compression Ratio Set by External Resistor
Automatic Limiting Feature Prevents ADC Overload
Adjustable Release Time
Low Noise and Distortion
20 kHz Bandwidth (�1 dB)
Low Cost
APPLICATIONS
Microphone Preamplifier/Processor
Computer Sound Cards
Public Address/Paging Systems
Communication Headsets
Telephone Conferencing
Guitar Sustain Effects Generator
Computerized Voice Recognition
Surveillance Systems
Karaoke and DJ Mixers
GENERAL DESCRIPTION

The SSM2165 is a complete and flexible solution for condition-
ing microphone inputs in computer audio systems. It is also
excellent for improving vocal clarity in communications and
public address systems. A low noise voltage controlled amplifier
(VCA) provides a gain that is dynamically adjusted by a control
loop to maintain a set compression characteristic. The compres-
sion ratio is set by a single resistor and can be varied from 1:1 to
over 15:1 relative to the fixed rotation point. Signals above the
rotation point are limited to prevent overload and to eliminate
“popping.” A downward expander (noise gate) prevents amplifi-
cation of noise or hum. This results in optimized signal levels
prior to digitization, thereby eliminating the need for additional
gain or attenuation in the digital domain that could add noise or
impair accuracy of speech recognition algorithms. The flexibility
of setting the compression ratio and the time constant of the
level detector, coupled with two values of rotation point, make
the SSM2165 easy to integrate in a wide variety of microphone
conditioning applications.
The SSM2165 is an ideal companion product for audio codecs
used in computer systems, such as the AD1845 and AD1847.
The device is available in 8-lead SOIC and P-DIP packages, and
guaranteed for operation over the extended industrial temperature
range of –40°C to +85°C. As shown in Figure 1a, the SSM2165-1
has a rotation point of –25.7 dBu (40 mV)1, a VCA gain of 18dB,
and gives –7.7 dBu (320 mV) before limiting. As shown in Figure
1b, the SSM2165-2 has a rotation point of –17.8 dBu (100mV),
a VCA gain of 8 dB and gives –9.8 dBu (250 mV) before limiting.
Both have a noise gate threshold of –64 dBu (500 μV), below
which downward expansion reduces the gain with a ratio of
approximately 1:3. That is, a –3 dB reduction of output signal
occurs with a –1 dB reduction of input signal. For applications
requiring adjustable noise gate threshold, VCA gain up to 18dB,
and adjustable rotation point, please refer to the SSM2166.
Figure 1a. SSM2165-1 Compression and Gating Characteristics
Figure 1b. SSM2165-2 Compression and Gating Characteristics*Patents pending.All signals are in rms volts or dBu (0 dBu = 0.775 V rms).
SSM2165–SPECIFICATIONS
CONTROL SECTION
NOTES0dBu = 0.775 V rms.Referred to input.
Specifications subject to change without notice.
(V+ = 5 V, f = 1 kHz, RL = 100 k�, RCOMP = 0 �, TA = 25�C, unless otherwise noted)
CAUTION
ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000V readily
ABSOLUTE MAXIMUM RATINGS

Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 V
Audio Input Voltage . . . . . . . . . . . . . . . . . . . . .Supply Voltage
Operating Temperature Range . . . . . . . . . . . .–40°C to +85°C
Storage Temperature Range . . . . . . . . . . . . .–65°C to +150°C
Junction Temperature (TJ) . . . . . . . . . . . . . . . . . . . . . . .150°C
Lead Temperature (Soldering, 60 sec) . . . . . . . . . . . . . .300°C
ESD RATINGS

883 (Human Body) Model . . . . . . . . . . . . . . . . . . . . . . .2.0 kV
THERMAL CHARACTERISTICS

Thermal Resistance
8-Lead Plastic DIP
θJA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103°C/W
θJC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43°C/W
8-Lead SOIC
θJA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .158°C/W
θJC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43°C/W
ORDERING GUIDE

*Not for new design, obsolete April 2002.
PIN FUNCTION DESCRIPTIONS
PIN CONFIGURATION
SSM2165
COMPRESSION RATIO
1:115:12:15:110:1
COMP

180

TPC 1.Compression Ratio vs. RCOMP
TPC 2.THD + N (%) vs. Input (V rms)
TPC 3.THD + N (%) vs. Frequency (Hz)
TPC 4.Wideband Output Noise
TPC 5.GBW Curves vs. VCA Gain
TPC 6.PSRR vs. Frequency, Referred to Input
–Typical Performance Characteristics
THEORY OF OPERATION
Figure 2 illustrates the general transfer characteristic for the
SSM2165 where the output level in dBu is plotted as a function
of the input level in dBu (0 dBu = 0.775 V rms). For input
signals in the range of VDE (Downward Expansion) to VRP
(Rotation Point) an “r” dB change in the input level causes a 1
dB change in the output level. Here, “r” is defined as the “com-
pression ratio.” The compression ratio may be varied from 1:1
(no compression) to over 15:1 via a single resistor, RCOMP.
Input signals above VRP are compressed with a fixed compres-
sion ratio of approximately 10:1. This region of operation is the
“limiting region.” Varying the compression ratio has no effect
on the limiting region. The breakpoint between the compres-
sion region and the limiting region is referred to as the
“limiting threshold” or “rotation point,” and is different for the
SSM2165-1 and SSM2165-2, see Table I.
Table I.Characteristics vs. Dash Number

*At limiting.
The term “rotation point” derives from the observation that
the straight line in the compression region “rotates” about this
point on the input/output characteristic as the compression ratio
is changed.
When the compression is set to 2:1, a –2 dB change of the input
signal level in the compression region causes –1 dB change of
the output level. Likewise, at 10:1 compression, a –10 dB change
of the input signal level in the compression region causes a –1 dB
change in the output level. The gain of the system with an input
signal level of VRP is fixed regardless of the compression ratio,
and is different for the SSM2165-1 and SSM2165-2 (see Figures
1a and 1b). The “nominal gain” of the system is 18 dB for the
SSM2165-1, and 8 dB for the SSM2165-2. System gain is mea-
sured at VRP and is (VOUT – VIN) in dB.
Input signals below VDE are downward expanded at a ratio of
approximately 1:3. As a result, the gain of the system is small
for very small input signal levels below VDE, even though it may
be quite large for input signals above VDE. The downward
APPLICATIONS INFORMATION

The SSM2165 is a complete microphone signal conditioning
system in a single integrated circuit. Designed primarily for
voiceband applications, this integrated circuit provides amplifi-
cation, rms detection, limiting, variable compression, and down-
ward expansion. The internal rms detector has a time constant
set by an external capacitor. An integral voltage-controlled
amplifier (VCA) provides up to 40 dB of gain in the signal path
with approximately 30 kHz bandwidth. The device operates on
a single 5 V supply, accepts input signals up to 1 V1, and pro-
duces output signal levels at limiting of 320 mV and 250 mV for
the SSM2165-1 and SSM2165-2 respectively, into loads > 5 kΩ.
The SSM2165 contains an input buffer and automatic gain
control (AGC) circuit for audio and voice band signals. Circuit
operation is optimized by providing user-adjustable compression
ratio and time constant. A downward expansion (noise gating)
feature reduces background and circuit noise below 500 μV.
The rotation point determines the output signal levels before
limiting (referred to the input), and is 40 mV for the SSM2165-1
and 100 mV for the SSM2165-2.
Figure 2. General Input/Output Characteristics of the
SSM2165
TPC 7.Small Signal Transient Response
TPC 8.Large Signal Transient Response
SSM2165
operation of the level detector down to 10 Hz, the value of the
capacitor should be around 22 μF. Some experimentation with
larger values for the AVG CAP may be necessary to reduce the
effects of excessive low frequency ambient background noise.
The value of the averaging capacitor affects sound quality: too
small a value for this capacitor may cause a “pumping effect”
for some signals, while too large a value can result in slow re-
sponse times to signal dynamics. Electrolytic capacitors are
recommended here for lowest cost.
The rms detector filter time constant is approximately given by
10 × CAVG milliseconds where CAVG is in μF. This time con-
stant controls both the steady-state averaging in the rms
detector as well as the release time for compression, that is, the
time it takes for the system gain to react when a large input is
followed by a small signal. The attack time, the time it takes for
the gain to be reduced when a small signal is followed by a large
signal, is mainly controlled by internal circuitry that speeds up
the attack for large level changes, and controlled partly by the
AVG CAP value. This limits overload time to under 1 ms in
most cases.
The performance of the rms level detector is illustrated in Fig-
ure 4 for CAVG = 2.2 μF and Figure 5 for CAVG = 22 μF. In each
of these photographs, the input signal to the SSM2165 (not
shown) is a series of tone bursts in six successive 10 dB steps.
The tone bursts range from –66 dBu (0.5 mV rms) to
–6 dBu (0.5 V rms). As illustrated in the photographs, the
attack time of the rms level detector is dependent only on CAVG,
but the release times are linear ramps whose decay times are
dependent on both for CAVG and the input signal step size. The
rate of release is approximately 240 dB/s for a CAVG = 2.2 μF,
and 12 dB/s for a CAVG of 22 μF.
Figure 4. RMS Level Detector Performance with
CAVG = 2.2 μF
The SSM2165 Signal Path

Figure 3 illustrates the block diagram of the SSM2165. The
audio input signal is processed by the unity gain input buffer
and then by the VCA. The buffer presents an input impedance
of approximately 180 kΩ to the source. A dc voltage of approxi-
mately 1.5 V is present at AUDIO +IN (Pin 4), requiring the
use of a blocking capacitor (C1) for ground-referenced sources.
A 0.1 μF capacitor is a good choice for most audio applications.
The buffer is designed to drive only the low impedance input of
the VCA, and must not be loaded by capacitance to ground.
The VCA is a low distortion, variable-gain amplifier whose gain
is set by the internal control circuitry. The input to the VCA is
a virtual ground in series with 500 Ω. An external blocking
capacitor (C2) must be used between the buffer’s output and
the VCA input. The desired low frequency response and the
total of 1 kΩ impedance between amplifiers determine the
value of this capacitor. For music applications, 10 μF will give
high pass fC = 16 Hz. For voice/communications applications,μF will give fC = 160 Hz. An aluminum electrolytic capacitor
is an economical choice. The VCA amplifies the input signal
current flowing through C6 and converts this current to a
voltage at the SSM2165’s output (Pin7). The net gain from
input to output can be as high as 40dB for high compression
ratios and depending on the gain set by the control circuitry.
The output impedance of the SSM2165 is typically less thanΩ, and the external load on Pin 7 should be >5 kΩ. The
nominal output dc voltage of the device is approximately 2.2 V.
Use a dc blocking capacitor for grounded loads.
Figure 3.Functional Block Diagram and Typical Voice
Application
The bandwidth of the SSM2165 is quite wide at all gain set-
tings. The upper –3 dB point is approximately 300 kHz. The
GBW plots are shown in TPC 5. While the noise of the input
buffer is fixed, the input referred noise of the VCA is a function
of gain. The VCA input noise is designed to be a minimum
when the gain is at a maximum, thereby optimizing the usable
dynamic range of the part. A photograph of the SSM2165’s
wideband peak-to-peak output noise is illustrated in TPC 4.
The Level Detector

The SSM2165 incorporates a full-wave rectifier and a patent-
pending, true rms level detector circuit whose averaging time
constant is set by an external capacitor connected to the AVG
CAP pin (Pin 5). Capacitor values from 18 μF to 22 μF have
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