AKG Acoustics Microphone WMS61 User Manual

WMS61  
&
WMS81  
Wireless Microphone  
Systems  
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FM has been used for broadcast transmission of high quality audio since the mid-1950s, and its primary advantages are wide  
audio bandwidth and relative freedom from external electrical disturbances as compared to AM (amplitude modulation).  
The chief factors that determine the ultimate performance characteristics of an FM system are RF signal strength at the  
receiver and the modulation index (FM frequency deviation divided by modulating frequency) of the signal at the  
transmitter.  
In time, the transmission band for wireless microphone usage was moved out to the high-band ranges of VHF (very high  
frequency) and UHF (ultra high frequency), where there has been ample bandwidth and, in most world areas, plenty of  
unused channels. Today, the wireless microphone industry is dealing with the coming of digital television (DTV), and this  
requires all manufacturers and users of wireless microphones to take a good look at actual TV frequency allocations on a  
city by city basis.  
The VHF transmission range used with the WMS 61 is 138 to 250 MHz, and for the WMS 81 the UHF range is 710 to  
869 MHz. The transmitting antennas are quite short, no more than about 7 centimeters (3 inches), making for very  
convenient operation.  
The transmitted power of wireless microphone systems is normally in the range of 10 to 50 milliwatts (mW), depending  
on the manufacturer and to a large extent the country of origin. This small power output is necessary to ensure that  
wireless microphone systems will not interfere with other communications activities, but it is sufficient to accommodate  
all line-of-sight activities over distances of 300 meters (1000 feet).  
If the simple system shown in Figure 1 were to be directly used for wireless microphone applications, there would be two  
major problems: loss of signal due to multiple paths from transmitter to receiver as the performer moves around on stage,  
and the susceptibility to noise. We will now discuss these problems and their solutions.  
Diversity Reception: With only a single receiving antenna, as shown in Figure 2A, transmission will be lost when the  
direct carrier signal from the transmitter and a reflected carrier signal both arrive at the receiver out-of-phase (a phase  
shift of 180°), causing a virtual cancellation of the RF carrier. Dead spots” may exist throughout the normal pickup  
range, with consequent muting of the microphone system.  
The solution to this problem is diversity reception. In diversity reception, which is shown in Figure 2B, there are two  
antennas located approximately one-quarter wavelength apart. This relatively small distance is sufficient to ensure that at  
least one of the antennas will be in a strong signal zone at all times, thus providing the receiving system with an adequate  
signal. In the Series 61 and 81 receivers, both antenna signals are demodulated, and the stronger of the two is selected  
for further processing and delivery to the output of the system. This approach is known as diversity reception.  
Figure 2. Operation of the diversity receiver.  
A. When a direct path and a reflected path are both received  
B. When a diversity receiver is used, two antennas,  
at the single antenna, there may be some degree of phase  
cancellation, resulting in weak or no output.  
spaced by about one-fourth wavelength, pick up the  
signal, and there is a very low liklihood that cancellation  
will take place at both antennas.  
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Noise Considerations: Monophonic FM broadcast transmission normally has a very high signal-to-noise ratio because of  
relatively high signal strength and high modulation index. In the wireless microphone area, where we are “crowding”  
many channels into a relatively small radiated bandwidth, the usable signal-to-noise ratio is about 60 dB — which is not  
good enough for critical sound reinforcement applications. It is customary to “enhance” this performance through the use  
of some kind of code/ decode noise reduction, or companding system. In companding, the input signal is given a high  
frequency pre-emphases (or boost), compressed so that it effectively occupies a narrower dynamic range, allowing it to  
ride high above the inherent noise level of the total FM transmission system. At the receiving end, after the signal has  
been demodulated, it is expanded in dynamic range by an amount which is the exact inverse of the compression, and  
then followed by high frequency de-emphasis. Details of companding are shown in Figure 3, and complementary pre-  
emphasis/ de-emphasis curves are shown in Figure 4.  
This double action (code/ decode) restores the original dynamic range to the signal, while at the same time pushing the  
transmission noise floor downward during softer moments in the program. (This same basic principle is used in Dolby  
noise reduction in Cassette recorders.)  
Figure 3. Details of Companding (compression-expansion)  
processing in a wireless microphone system.  
Figure 4. Compander characteristics in the WMS61/ 81 systems.  
Pre-emphasis curve in the transmitter (A); de-emphasis curve in the receiver (B).  
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Another technique for minimizing noise under marginal operating conditions is known as squelching. When the level of  
the incoming RF signal drops below a certain threshold, the system becomes prone to interference and may even pick up  
spurious signals. In older systems, the squelching threshold is a manual adjustment. The WMS 61 and 81 systems use a  
pilot tone sent from the from the transmitter, which “instructs” the receiver to adjust its reception level accordingly so  
that noises due to improper squelch action are vastly minimized. The receiver goes into muting silently, and only when  
the transmitted signal drops below usable level.  
Basic System Description:  
Both systems include handheld transmitters with a choice of five head units, a flexible bodypack with both microphone  
and line input capability, and a half-rack width, single rack unit receiver. The WMS 81 series also had a unique wireless  
receiving unit for use with portable video cameras.  
A. Handheld transmitter: The HT61 and HT 81 units are virtually identical. As you hold the unit in your hand, you  
will note that there is no antenna pod or dangling wire. In this system a dipole transmitting antenna is contained  
completely within the unit. Gently turn the base of the transmitting unit counterclockwise and remove it. Also remove  
the black ring that fits just above the base of the unit. When you have done this you will see 4 operating controls, the  
battery compartment and a listing of the transmitting frequency bands and a corresponding frequency set number. Lets  
look at these in turn:  
1. Channel selector: This is a recessed control that can only be accessed by a small flat-blade screwdriver (contained in  
the shipping package), and these channels are indicated 1 through 9 and A through F for a total of 15 channels. The  
channel number or letter must agree with the corresponding setting on the receiving unit, and the frequency set number  
must agree on both handheld unit and receiving units. (Note: When changing frequency on the transmitter, turn the unit  
OFF, set the new frequency, and then turn the unit back ON. The power must be off for the circuit to accomplish the  
frequency change.)  
2. Gain setting: This control is just below the channel selector and is adjusted by a small screwdriver so that the optimum  
signal-to-noise ratio of the transmitted audio signal is achieved.  
3. Power On-off: This switch is located just to the left of the gain control. When it is switched on an external red LED  
indicates to the microphones user that the transmitter is operating. The red LED also serves as a modulation indicator;  
normal maximum peaks in the spoken signal will result in a slight increase in the brightness of the LED and thus is an  
indication of good transmitting level.  
4. Microphone On-off: This switch is located to the right of the gain control. For normal operation this switch must be in  
the ON position.  
5. Battery compartment: Just below all of the controls is the battery compartment. Two AA batteries will provide up to 12  
hours operation; thus, it is not necessary to turn the system power on and off at any time during a normal program or  
performance. When the batteries need to be replaced, simply pull on the two cloth ribbons to remove them. It is  
important to use high quality alkaline batteries. Generic batteries of lesser quality can drop in voltage, prematurely  
causing the transmitter to cease operating in as little as 15 minutes.  
When the batteries are in fresh condition, the red LED/ status light on the microphone case will glow dimly; when the  
status light is illuminated brightly, there are approximately 90 minutes of battery performance left, and the batteries  
should be replaced as soon as possible. In the event that the status light does not light up at all, the batteries are dead and  
must be discarded. When installing new batteries, use extra caution to ensure that they are oriented correctly.  
6. Channel listing: For convenience, the 15 individual frequency bands are listed for each set, and the master set number  
is located at the top of the listing.  
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7. Color coded rings (part number CCS-1): Included in the package is a set of color coded rings and matching rectangular  
snap-on color chips. These accessories help you keep track of which microphone corresponds to which receiver. For  
example, you can replace the black ring (the one you removed earlier) with the yellow ring, and snap its corresponding  
yellow rectangular chip on the lower front center of the receiving unit which is tuned to the same frequency. The color  
coded ring on the handheld transmitter can be rotated to expose one or more of the controls so that the user will have  
the flexibility of muting the microphone.  
B. Bodypack transmitter: The PT 61 and 81 transmitters have exactly the same set of controls that are on the  
handheld transmitter. Here are descriptions of front panel controls:  
1. Channel selector and gain setting: These controls are located behind the slip-off battery cover. They are to be accessed  
by a small screwdriver blade. When the battery cover has been replaced, the gain control is accessible through a small  
hole in the cover. Note that just inside the battery cover is a small screwdriver for making all adjustments on the system.  
Always replace this handy tool where you found it!  
2. Power on-off and signal on-off controls: Looking at the body pack from the top you will see a small security cover that  
can be easily rotated, exposing the two switches. The gray one to the left is the signal on-off switch, and the black one to  
the right is the power on-off switch. When the power is engaged the LED status light will glow dimly. When the switch  
cover is closed, the status LED can be seen just above it, indicating to the user that the unit is functioning.  
3. Color coded chip: Just below the cover on the top of the unit is a position for a color coded chip to be positioned so  
that matched transmit-receive sets can be easily identified.  
4. Receptacle for signal input: At the top of the unit you will see to the right a jack for accepting an external microphone  
or instrument pickup. This 3-pin receptacle will provide 6-volt powering (on pin 3) for pre-polarized condenser  
microphones you may wish to use with the bodypack. There is also the accessory cable (MK/ GL) for connecting electric  
guitars or keyboards.  
When plugging a microphone into the input receptacle, line up the key on the plug to match the corresponding notch in  
the receptacle. The plug will then snap into place, and can be removed only by pressing the release button on the plug.  
C. Receiving Unit: The SR 61 and SR 81 units have the following front panel controls and indicators, reading from left  
to right:  
1. On-off switch. This switch applies power from a wall ac unit plugged into the power receptacle on the back of receiver.  
2. Remote battery indicator: The low, mid or high status of the battery set in the transmitter is monitored remotely at the  
receiving unit. This enables the engineer who has been assigned the task of overseeing the wireless microphone operation  
to keep tabs on the status of all transmitters. Here is the code indicating battery status:  
HI, MID and LO lit continuously: indicates batteries are good for at least 5 additional hours.  
MID and LO lit continuously: indicates batteries are good for at least 3 additional hours  
LO lit continuously: indicates batteries are good for 1 additional hour.  
LO blinking continuously: indicates less than 1 hour remaining.  
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3. Mute indicator: When this red status light is on, the system is muted, indicating low or no RF signal from the  
transmitter. The squelch action operates with a pilot tone from the transmitter and requires no manual adjustment at the  
receiver. It is the level of this signal that automatically mutes the system, preventing a rise in noise when the RF signal is  
low or non-existent.  
4. RF level: This consists of a set of 5 LED status lights. When RF signal strength is high, all five are lit, and proper  
operation is underway. When only the lowest light (yellow) is lit, there is minimal RF input to the system. This is an  
indication to the operating engineer to take measures, such as changing channel assignments or rearranging the antenna  
array, so that the RF level can be increased.  
5. Diversity status, A and B: These LEDs indicate on an instantaneous basis which of the two internal diversity channels  
is in operation. In normal use there should be nearly random switching back and forth between the two. If one of the  
status lights remains on much of the time it is an indication that the operating engineer should slightly rearrange the  
antennas or shift to another frequency. Constant switching of the LEDs indicate the receiver is searching for the signal,  
and this the normal mode of operation.  
6. AF level: The audio frequency level indicator shows the actual output of the receiver. Normal peak outputs should be  
in the range of -4 to 0 dB, with the green LEDs on, and occasional peaking of the red LED. This level may be set with  
the front panel volume control using the small screwdriver.  
7. Channel selector: The channel selector is set with the small screwdriver and must match the channel set on the  
transmitter. (Unlike the transmitter, you do not need to turn the receiver off when selecting a new frequency.)  
Here are descriptions of the back panel controls:  
1. Antenna A and B connections. These are the BNC bayonet-type lock receptacles at the left and right edges of the back  
panel. Insert the two “rabbit ear” antenna elements, pointing them upward and slightly outward. Adjust the length of the  
antenna sections using the guide on the top of the receiver. Note that there are suggested antenna lengths for the various  
transmission frequency master sets that are available for the WMS 61 and 81 product groups.  
2. Signal outputs: You have your choice of three operating modes:  
A. Line level unbalanced out at 1/ 4-inch receptacle.  
B. Line level balanced. Use XLR-M receptacle with switch in “line” position.  
C. Microphone level balanced. Use LR-M receptacle with switch in “mic” position.  
3. Power in: Power for the SR 61 and 81 systems is normally by way of a wall 12 to 16 volt ac or dc power unit plugged  
into the power receptacle on the back of the unit. Excess wire length may be looped around one of the small brackets for  
strain relief. Power may also be supplied from the PS 61 or 81 through the antenna coaxial cable.  
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Trying Out the System: A Typical Setup:  
Now that you have been introduced to the basic functions of the WMS 61 and 81 units, lets proceed with a typical  
setup. We’ll choose the bodypack and use it with a clip-on lapel microphone such as the AKG Model CK 77 WR-L. (The  
L in the model number indicates that this model has the proper locking-type plug-in jack for wireless use.)  
Mount the small microphone element onto the lapel clip by gently pushing the wire just below the microphone capsule  
into one of the notches on the lapel clip. Make sure that the microphone is oriented so that it points upward toward the  
users mouth. Plug the other end of the microphone cable into the appropriate jack on the bodypack, making sure that it  
is locked in place. Clip the microphone onto your lapel, and select a transmission frequency on the bodypack. (Note that  
these numbers/ letters are slightly recessed and are best seen in a fairly bright light.) Select a channel. For now, adjust the  
gain setting on the bodypack for full-on.  
Now, going to the receiving unit, double-check to make sure that the master frequency set on the receiver matches that  
of the bodypack. Then, select the same channel number/ letter that you set on the bodypack. Power up the bodypack.  
You will now note that the RF LEDs on the receiving unit are all lit, indicating that full strength from the bodypack is  
available. If this is not the case, check to make sure that you have actually chosen the correct receiving frequency. Once  
you see the green RF LEDs lit, we can move on. If you do not have the correct frequency set on the receiver, you will  
notice that the mute light is on and the diversity LEDs are alternating at a rate of about two times per second as the unit  
is searching for a non-existent signal.  
Next, choose your output option at the back of the receiver. Lets pick the balanced “mic” option. Set the output switch  
to “mic” and plug in an XLR F cable for feeding the down-stream console. Disable phantom powering from the console, if  
possible.  
Using the screwdriver, advance the front-panel volume control until you have enough signal output from the receiver to  
drive the console to the required level. You may want to adjust both the gain setting on the bodypack and volume setting  
on the receiver in order to get the best overall level. Make sure that you are not overmodulating the transmitter with  
normal speech. To determine this, talk normally and have someone listen carefully to the reproduced sound quality. If  
peaks are distorted, reduce the gain setting on the bodypack and make up any gain shortfall with the output volume  
control at the receiver.  
This is basically all there is to it. As you experiment with other microphones in conjunction with the bodypack you will  
find that some will have more output than others, requiring that you reduce the output level of the bodypack. You can  
easily tell when you are close to overdriving the bodypack by observing the red LED status light at the top of the  
bodypack; the LED will dim slightly on peaks, indicating that you should reduce the gain.  
You should also be aware that the AF level indicating LEDs on the receiver are independent of the setting of the output  
volume control. The volume control is primarily for adjusting the signal feed level downstream, while the LEDs indicate  
the audio level at the output of the demodulator. If it appears excessive, reduce the setting of the gain control on the  
bodypack.  
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Using Handheld Transmitters:  
The same setup routine and precautions as we used for the bodypack apply here as well. Since a given handheld  
transmitter may be used by a number of speakers it is recommended that the initial checkout be made using the loudest  
of the speakers to ensure that the system can handle those maximum speech peaks. Softer talkers will then require that  
the reinforcement system operator raise input levels at the console as required.  
General Usage:  
As with all wireless systems operating in the VHF and UHF frequency ranges with radiated power in the 10 milliwatt  
range, there are certain precautions. If the receiving antennas are line-of-sight to the transmitters, and if the path is open  
and free of large steel structural members, clear operation up to 500 - 1000 feet is possible. Curtains do not pose an  
obstacle, but drywall structures may weaken the signal to some degree. It is also important that transmitters not be used  
any closer than about 10 feet of the receiver, since the RF input circuitry may overload slightly. When testing multiple  
microphones in a new venue, make sure that each transmitter/ receiver pair is individually tested with the transmitter at  
the farthest intended position away from the receiver. In certain venues, some frequencies will work better than others,  
and this is your opportunity to detect a problem and fix it before it causes trouble. All of us have seen national  
conventions on TV where a wireless microphone has failed, or become intermittent, just because some engineer did not  
do the required homework beforehand.  
Using the Optional PR 81 Portable Receiver:  
Traditionally, the video taping of a roving announcer with a wireless microphone required a wire audio feed to the video  
camera. This nuisance of course limited the range of the camera and defeated much of the effectiveness of the  
announcers need to move around. The PR 81 solves this problem by providing a small receiving unit that can be  
strapped to the battery-powered camera, thus giving both camera operator and announcer complete freedom to move as  
needed.  
The setup of the PR 81 is much like that of the SR 81, except that the unit does have a squelch control — necessary  
because the unit will normally be operated in a high RF environment. See the Users Instructions for the PR 81 for added  
information on this model. and for specific setup instructions.  
Comments on Multi-Channel Operation:  
Two SR 61 or 81 units can be joined to fit into a single 19-inch rack unit. For an odd number of units, there is a blank  
metal panel that fills the unused space. Each complete transmitter-receiver pair, as it arrives from the factory, contains the  
necessary hardware to mount two receivers together, and there is a setup sheet that shows details here. Note that there is  
a common yoke to join the two receivers by screws at their rear panels.  
In small-scale applications, individual free-standing systems may suffice. However, for increased range and to simplify large  
installations, a single pair of antennas may be used with multiple receivers. These booster antenna models are the RA61B  
(VHF) and the RA 81B (UHF).  
Antenna splitters PS61 (VHF) and PS81 (UHF) are used to send antenna signals to the connected systems. Up to three  
splitters may be “daisy-chained” to allow a maximum of 10 multichannel receivers with only two antennas. The splitters  
use two input and 8 output BNC connectors to maintain the systems’ diversity operation. The PS61 or PS81 splitters do  
not come shipped with a power cord or power supply. The reason is that power is supplied through the coaxial cable  
from the receivers. When it is necessary to eliminate the receivers’ individual 12Vdc power supplies, a central power  
supply (model PSU01) may be used. The PSU01 plugs directly into the PS61 or PS81 and will power up to four receivers  
through the coaxial cable. That is to say, each splitter used in a multiple configuration set will required one PSU01 power  
supply. For detailed instructions on the setup and operation of multiple systems, refer to the PS61 or PS81 operating  
manual, or call (615) 360-0499 and ask for AKG technical support.  
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Specifications  
SR61 receiver:  
PT61 bodypack transmitter:  
Receiver type:  
Diversity  
Audio bandwidth:  
Modulation method:  
Radiated RF power:  
Frequency stability:  
Antenna:  
50 Hz to 20 kHz  
Antenna inputs:  
Modulation type:  
Input sensitivity:  
Squelch threshold:  
2 x 50-ohm BNC sockets  
FM  
FM  
10 mW  
Typical -95 dBm  
±10 ppm  
Automatic, using pilot tone  
(32.678 kHz)  
Flexible, quarter-wave wire  
±30 kHz  
Rated deviation:  
Signal-to-noise ratio:  
Input impedance:  
Audio input:  
Audio bandwidth:  
THD at 1 kHz:  
Signal-to-noise  
Audio output:  
50 to 20 kHz  
Typical 50 dB (A weighted)  
220 kohms, 600 pF  
<0.4% at rated deviation  
Typical 100 dB (A-weighted)  
Mini 3-pin XLR; 1400 mV for rated  
deviation at 1 kHz  
Balanced XLR-M, mic/line level  
switchable, typical 30 dB  
unbalanced: 1.4” jack: 0 dBm  
XLR: 6 dBm  
Phantom powering:  
Current consumption:  
Power requirement:  
Battery life:  
Pin 3: 6 V/6k8 ohms  
170 mA/2.4 V  
2 AA 1.5V batteries  
>10 hours  
Current consumption: 220 mA typical  
Power requirement:  
11 to 15 V dc or ac from external  
power supply  
Dimensions:  
3.62 x 2.56 x 0.79 in.  
(92 x 65 x 20 mm )  
Dimensions:  
8.27 x 6.7 x 1.65 in.  
(210 x 170 x 42 mm)  
Net weight:  
3.04 oz. (76 g) without batteries  
Net weight:  
18.8 oz. (470 g)  
HT 61 handheld transmitter:  
Accessories:  
Type, bandwidth and  
polar pattern:  
See individual microphone  
specification sheets  
PS61:  
Active, wideband antenna splitter for  
connecting up to 4 SR61 units or  
3 SR61 units and one additional PS.  
Modulation type:  
RF radiated power:  
Rated deviation:  
Signal-to-noise ratio:  
Current consumption:  
Power requirement:  
Battery life:  
FM  
10 mW  
RA61B:  
PSU01:  
External receiver antenna with  
integrated booster, powered via  
cable from the PS61 antenna splitter.  
±30 kHz  
Typical 50 dB (A-weighted)  
<150 mA/2.4 V  
2 AA size 1.5V batteries  
>12 hours  
Central power supply unit for PS61 and  
PS81 splitters.  
SRA-1:  
CCS-1:  
External directional antenna  
Color code indicators for easy channel  
recognition.  
Dimensions:  
1.4 x 9.4 in.  
(36 mm dia. x 240 mm)  
Hard Case CH 60:  
UAM1:  
For carrying a single complete  
system  
Net weight:  
9.8 oz. (245 g)  
Universal antenna mount for moving  
the antennas for 1 receiver to the  
front of the rack.  
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Specifications  
PT81 bodypack transmitter:  
SR81 receiver:  
Audio bandwidth:  
Modulation method:  
Radiated RF power:  
Frequency stability:  
Antenna:  
50 Hz to 20 kHz  
Receiver type:  
Diversity  
FM  
Antenna inputs:  
Modulation type:  
Input sensitivity:  
Squelch threshold:  
Audio bandwidth:  
THD at 1 kHz:  
2 x 50-ohm BNC sockets  
FM  
10 mW  
±10 ppm  
Typical -95 dBm  
Flexible, quarter-wave wire  
±30 kHz  
Automatic, using pilot tone (32.678 kHz)  
50 to 20 kHz  
Rated deviation:  
Signal-to-noise ratio: Typical 50 dB (A weighted)  
<0.4% at rated deviation  
Typical 100 dB (A-weighted)  
Input impedance:  
Audio input:  
220 kohms, 600 pF  
Signal-to-noise  
Audio output:  
Mini 3-pin XLR; 1400 mV for  
rated deviation at 1 kHz  
Balanced XLR-M, mic/line level  
switchable, typical 30 dB unbalanced:  
1.4” jack: 0 dBm XLR: 6 dBm  
Phantom powering:  
Pin 3: 6 V/6k8 ohms  
Current consumption: 220 mA typical  
Current consumption: 170 mA/2.4 V  
Power requirement:  
11 to 15 V dc or ac from  
external power supply  
Power requirement:  
Battery life:  
2 AA 1.5V batteries  
>8 hours  
Dimensions:  
8.27 x 6.7 x 1.65 in.  
(210 x 170 x 42 mm)  
Dimensions:  
3.62 x 2.56 x 0.79 in.  
(92 x 65 x 20 mm)  
Net weight:  
18.8 oz. (470 g)  
Net weight:  
3.04 oz. (76 g) without batteries  
Accessories:  
HT81 handheld transmitter:  
PS81:  
Active, wideband antenna splitter for  
connecting up to 4 SR81 units or 3  
SR81 units and one additional PS.  
Type, bandwidth and polar pattern:  
See individual microphone  
specification sheets  
RA81B:  
PSU01:  
External receiver antenna with  
integrated booster, powered via cable  
from the PS61 antenna splitter.  
Modulation type:  
RF radiated power:  
Rated deviation:  
FM  
10 mW  
Central power supply unit for PS61 and  
PS81 splitters.  
±30 kHz  
Signal-to-noise ratio: Typical 50 dB (A-weighted)  
Current consumption: <150 mA/2.4 V  
SRA-1:  
CCS-1:  
External directional antenna  
Color code indicators for easy channel  
recognition.  
Power requirement:  
Battery life:  
2 AA size 1.5V batteries  
>10 hours  
Hard Case CH60:  
UAM1:  
For carrying a single complete system  
Dimensions:  
1.4 x 9.4 in dia. (36 mm x 240 mm)  
9.8 oz. (245 g)  
Universal antenna mount for moving  
the antennas for 1 receiver to the front  
of the rack.  
Net weight:  
AKG Acoustics, U.S. • 1449 Donelson Pike • Nashville • TN 37217 • Tel: (615) 360-0499 • Fax: (615) 360-0275  
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