Shure Portable Speaker VA 300 User Manual

VA 300  
OPERATING AND SERVICE MANUAL  
Manufactured by  
SHURE BROTHERS INC.  
222 Hartrey Avenue  
Evanston, Illinois 60204 U. S. A.  
Copyright 1978, Shure Brothers Inc.  
AL404 (RE) 27A819  
Printed in U. S. A.  
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VA300 SPECIFICATIONS  
VA300-C Console  
Amplifier Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . All silicon transistor mixer/power amplifier  
100 watts continuous (RMS); (to 8 ohm load, see Figure 3, Page 7)  
Power Output . . . . . . . . . . .  
60 db “Mic.” Input Level (8 ohm load)  
49 db “Inst.” Input Level (8 ohm load)  
Voltage Gain . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Frequency Response . . . . . . . . . . . . . . . . . . . . . . . . . . ± 2 db 40 Hz. to 20,000 Hz. (typical)  
Input Impedance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .60,000 ohms “Mic.” Input Level  
120,000 ohms “Inst.” Input Level  
Distortion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5% maximum at rated output at 1 KHz.  
Hum and Noise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 db below rated output  
Speaker Load Impedance . . . . . . . . . . . . . . . .  
Nominal 8 ohms; operational 5.3 ohms minimum  
(See Figure 3, Page 7)  
Input Clipping Level . . . . . . . . . . . . . . . . . . . . . . . Greater than 300 Mv. (“Mic.” Input Level)  
Greater than 1 V. (“Inst.” Input Level)  
± 13 db at 100 Hz. with respect to “flat” setting  
Bass Control Action . . . . . . . . . . . . . . . . . . . . .  
Treble Control Action . . . . . . . . . . . . . . . . . . ± 10 db at 10,000 Hz. with respect to “flat” setting  
“To Tape Recorder” Jack . . . . . Impedance 5,000 ohms; Output 19 db below speaker output;  
nominal - 2 V at 50 watts to speakers, Clipping Level 4 V.  
Impedance 10,000 ohms;  
Echo-“To Input” Jack (Output To External Echo Unit) . . . . . . . . . . . .  
Output 20 db above microphone inputs with individual volumes at “10”; Clipping level 3 V.  
Echo-“To Output” Jack (Input From External Echo Unit) . . . . . . . . . . Impedance 40,000 ohms;  
Sensitivity 200 Mv. for rated amplifier output with “Echo Gain” Control and  
“Master Volume” Control at maximum settings; Clipping level 2 V. with maximum  
setting of “Echo Gain” control. Clipping level increases with reduced setting  
of “Echo Gain” control.  
D.C. switching (no audio), parallels the Master Reverb  
“Reverb Switch“ Jack . . . . . . . . . . . . . . . .  
In-Out Switch. Any cable with a resistance of less then 5,000 ohms may be used.  
5,000 Hz.  
2,200 Hz.  
1,000 Hz.  
155 Hz.  
Center Notch Frequencies of “Anti-Feedback” Filters. . . . . . . . . . . . . .  
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VA300-C Console (cont’d)  
120 volts, 60 Hz.  
Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Power Consumption . . . . . . . . . . . . . . . . . . . 80 watts maximum with no signal in.  
180 watts with 1 KHz. signal and 100 watts output  
400 watts maximum operating  
. . . . . . . . . -7°C to 43°C (20°F to 110°F) without derating  
Ambient Temperature Range  
. . . . . . . . . . . . . . . . . . . . . . . . 213 mm height x 635 mm width x 375 mm  
depth (8-3/8 in. x 25 in. x 14-3/4 in.)  
Dimensions  
17.25 kg (38 Ibs.)  
Weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
VA300-S Speaker Column  
Power Rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 watts  
Impedance  
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16 ohms  
50 Hz. to 10,000 Hz.  
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Frequency Response  
140°  
6 5 °  
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Horizontal Distribution  
Vertical Distribution  
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1594 mm height x 400 mm width x 222 mm  
depth (62-3/4 in. x 15-3/4 in. x 8-3/4 in.)  
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Dimensions  
31.78 kg (70 Ibs.) including cable  
Weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
DESCRIPTION  
The Shure Model VA300 Vocal Master Sound System con-  
sists of one Control Console (VA300-C) and two Speaker  
Columns (VA300-S).  
System are conservatively rated and are operated well within  
their respective tolerances to assure long life and trouble-free  
performance.  
Designed specifically for the performing vocalist, the  
VA300 Vocal Master Sound System provides the required  
portability, flexibility, and dependability demanded by profes-  
sional entertainers.  
The VA300-C is Underwriters Laboratories, Inc. listed, and is  
listed by the CSA Testing laboratories as certified.  
The VA300-S Speaker Columns are highly directional, wide  
range, line-radiators.  
A
rear-ported enclosure is utilized which  
The VA300-C mixer/power amplifier Console permits the  
user to mix up to six microphones with individual control over  
volume, tone and reverberation. A solid-state 100 watt R.M.S.  
power amplifier is incorporated in the Console. Unique cir-  
cuitry design protects the solid-state components against dam-  
age as a possible result of open-circuit or short-circuit condi-  
tions of the amplifier outputs. The output transistors are also  
protected against overheating by the use of automatic thermal  
sensors. All components of the VA300 Vocal Master Sound  
contributes to the directional characteristics of the Speaker  
Column and is crucial in reduction of feedback.  
The VA300-S employs four special 8-inch loudspeakers and  
two special 10-inch loudspeakers providing a total cone area of  
2,310 cm² (358 in²).  
Each Speaker Column is furnished with a 15m (50 ft) #18  
gauge, 2-conductor rubber jacketed cable with locking phone  
plugs attached.  
3
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Figure 1  
6. Individual Channel “Treble & Bass” Controls (Six, Dual  
Concentric).  
Front Panel Controls (Refer to Figure 1)  
1. “Anti-Feedback” Switches (Four).  
2. “Reverb Intensity” Control.  
7. Individual Channel “Reverb” Switches (Six).  
8. “Master Volume” Control.  
3. “Reverb Treble & Bass” Controls (Dual Concentric).  
4. “Master Reverb” Switch.  
9. “Thermal Overload” Indicator Lamp.  
10. “On-Off-On” Power Switch.  
5. Individual Channel “Volume” Controls (Six).  
Figure 2  
Rear Panel Controls and Connections (Refer to Figure 2)  
11. Line Cord Storage Spindles.  
17. “Reverb Switch” Remote Control Jack (Phone Type).  
18. Echo-“To Input” Jack (Switching Phone Type).  
19. Echo-“To Output” Jack (Switching Phone Type).  
20. Echo “Gain” Control.  
12. A. C. Line Cord.  
13. D. C. Fuse (3AG/5A).  
14. A. C. Fuse (3AG/3ASB).  
21. “Mic./lnst.” Input Attenuator Switches (Six).  
22. “Input” Jacks (Six, Phone Type).  
15. “Speaker” Output Jacks (Two, Phone Type).  
16. “To Tape Recorder” Jack (Phone Type).  
4
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VA300 Vocal Master  
OPERATING INSTRUCTIONS  
“On” position results in the least amount of hum  
coming from the speakers.  
Now turn up the other Individual Channel Volume  
Controls (5) which are being used. By use of the Indivi-  
dual Channel Volume Controls (5), the microphones  
may be balanced for level so that the sound coming  
from the speakers is in proper balance for each micro-  
phone. Increasing or decreasing the Volume on one  
channel will have no effect on the other channels of the  
Console.  
Note the action of the Individual Treble and Bass Con-  
trols (6); these controls are of the dual concentric type,  
the large knob being the Bass control and the smaller  
knob being the Treble control. Each of these knobs  
incorporates an indicating rib. Under average condi-  
tions, the controls should be set with indicating ribs  
facing straight up (12:00 o’clock position) to provide a  
normal “flat” frequency response. All Treble and Bass  
Controls on the Console operate in the same manner;  
turning the controls clockwise respectively increases  
Bass or Treble, counterclockwise decreases Bass or  
Treble. Note that changing the Bass or Treble Controls  
on one channel has no effect on the other channels of  
the unit.  
Turn the Reverb Intensity control (2) to a setting of  
“4” Set the Master Reverb switch (4) to the “In”  
position. Reverberation may now be selectively added  
to any of the six channels by setting the Individual  
Channel Reverb switches (7) to the “In” position. Note  
that different settings of the Reverb Intensity Control  
(2) will not effect the overall system gain. Generally a  
setting of “1” to “4” of the Reverb Intensity Control  
(2) is adequate for vocals. The Reverb Treble and Bass  
Controls (3) operate in the same manner as those of the  
individual channel Treble and Bass Controls but provide  
independent tonal balance of the reverberant signal  
only. These controls do not affect the tone of the  
individual channels. For example, increasing Treble and  
decreasing Bass will approximate the reverb sound of a  
tape-type reverberation unit while decreasing Treble  
and increasing Bass will approximate the sound of a  
plate-type reverberation device.  
7.  
General Operating Instructions:  
1. Set all front panel controls in the following manner: All  
switches (1), (4). (7). set to “Out” position; “Reverb  
Intensity” Control (2). and all “Volume” Controls (5)  
and (8), set at “0”; all “Treble” and “Bass” Controls  
(3) and (6). set in the “flat response” position  
(indicator ribs at 12:00 o’clock); “On-Off-On” Switch  
(10) set in the “Off” position.  
8.  
2. Unwrap the A.C. Line cord (12) from the storage  
spindles (11); plug line cord into a 110 to 130 volt, 60  
Hz. outlet. The line cord is a 2.75m (9 ft), 3-conductor  
cord with a 3-pin grounding plug. If extension cords are  
required, use a high quality, rubber-jacketed cable with  
#18 gauge wire or larger.  
3. Remove the speaker cables from the storage compart-  
ments in the VA300-S Speaker Columns. Insert and lock  
the right angle phone plug on the cable into either of  
the two parallel-wired phone jacks; one on each Speaker  
Column. Connect the other end of each cable to the  
jacks on the rear panel of the Console marked  
“Speakers” (15). These plugs are provided with locking  
rings to lock the plug to the jack. Each speaker cable is  
15m (50 ft) in length and is made from heavy duty  
2-conductor, #18 gauge unshielded cable. Since each  
Speaker Column has a pair of parallel-wired input jacks,  
an alternate speaker hook-up would be to connect a  
speaker cable from the Console to one Speaker Column  
and then connect a second cable from this Speaker  
Column to the second Speaker Column. Either hook-up  
will provide an 8 ohm load. If longer speaker cables are  
required, see page 6.  
9.  
4. Connect one or more high impedance microphones to  
the Console at the connectors marked “Inputs” (22).  
The VA300 is designed to operate with any high  
ribbon-type high impedance  
quality dynamic or  
microphone. For low impedance microphones see page  
1 0 .  
5. Set all six Input Attenuator Switches (21) on the rear  
panel of the Console to “Mic.” These switches should  
generally be set in the “Mic.” position when using high  
impedance dynamic or ribbon microphones. See page  
6 for a description of the switch function.  
Set all four Antifeedback switches (1) to the “Out”  
position. These switches can help eliminate feedback.  
10.  
11.  
Each  
switch  
cuts  
out  
part  
of  
the  
critical  
feedback-generating frequencies. See page 8 for a  
detailed description on how to effectively use them,  
The Master Volume Control (8) will raise or lower the  
volume of all channels simultaneously without affecting  
the “balance,” or “mix.” NOTE: With the Console  
driven at or near full power, pilot lamps will dim or vary  
in brightness; this is a normal condition.  
6. Turn on the Power Switch (10) located on the front  
panel of the Console. Set the “Master Volume” Control  
(8) to “5.” While talking or singing into one of the  
microphones connected to the console, turn up the  
individual volume control for that microphone to  
normal level. If at this point a slight hum is heard in the  
speakers, switch the Power Switch (IO) to whichever  
a
5
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connect from the VA300-C to each 16-ohm (VA300-S)  
speaker. Greater cable lengths require heavier gauge wire to  
avoid appreciable power loss in the speaker cable. For 30 to  
51m (100 to 170 ft), use #16 gauge; 51 to 81m (170 to 270  
ft), use #14 gauge; and 81 to 128m (270 to 425 ft), use #12  
gauge wire. To maximize the power to each speaker, a separate  
cable should be used to connect each speaker to the VA300.  
Input Connections:  
Six individual input connectors are provided on the rear  
panel of the Console. These connectors are standard 1/4 inch  
phone jacks (22). The Console is designed to operate with any  
high quality dynamic or ribbon-type high impedance micro-  
phone. High impedance microphone cables should be limited  
to a maximum length of 6m (20 ft) to avoid high frequency’  
signal loss and to reduce the possibility of hum and noise  
pickup in the cables. Standard 1/4 inch phone plugs should be  
attached to the “Console end” of the microphone cables; the  
center conductor of the cable should be attached to the “tip”  
terminal of the phone plug and the shield of the cable should  
be connected to the “sleeve” terminal. For low impedance  
microphones, see page 10.  
For additional microphone inputs, see page 10. For connec-  
tions from electrified musical instruments, see page 10. For  
connections to play back a tape, see page 9. For connections  
to a phonograph, see page 10.  
Six individual input level adjustment switches (21) are lo-  
cated above the six input jacks. These screwdriver-slot slide  
switches allow the microphone input signal to be attenuated  
(reduced) before entering the preamplifier.  
Speakers:  
Selection of speakers for use in a vocal music system is most  
critical. The factors which most significantly contribute to an  
outstanding vocal speaker system are correct frequency range,  
distortion-free reproduction, and enough sound power to fully  
penetrate the audience area.  
The Shure VA300-S Speaker Column has been designed to  
provide all of these features. It is recommended that VA300-S  
Speaker Columns be used in pairs, each column having a  
nominal impedance of 16 ohms, which provides an impedance  
of 8 ohms when two are used. Each column utilizes two  
special IO-inch speakers and four special 8-inch speakers, and  
has a total speaker cone area of 2,310cm² (358 in²) per  
column. The VA300-S Speaker Column delivers virtually  
uniform penetrating power over a 140° angle in the horizontal  
plane and a 65° angle in the vertical plane. The rear-ported  
enclosure of the VA300-S contributes to its highly directional  
With the switch in the “Mic.” position, the signal from the  
microphone is switched directly to the preamplifier of the  
channel. With the switch in the “Inst.” position, the signal  
from the microphone is attenuated by 11 db before entering  
the preamplifier.  
which is critical in achieving maximum audience  
pattern,  
This feature may be useful when working the microphones  
penetration and reduction of feedback.  
very close to the performer’s lips as with “hard rock” vocalists,  
who may produce signals in excess of the clipping level of the  
preamplifiers; in such an instance, the attenuator will generally  
eliminate the distortion which would otherwise occur.  
The Shure VA301-S Speaker Column is intended primarily  
for use as an “on-stage monitor.” While this speaker meets all  
of the criteria for an excellent vocal system speaker, its area of  
coverage is more localized than that of the VA300-S. The  
nominal impedance of the VA301-S is 32 ohms, so that when  
used in conjunction with two VA300-S Speaker Columns, the  
total system impedance becomes 6.4 ohms. An integral volume  
control on the VA301-S permits its use on-stage as a monitor  
at the highest possible sound level without feedback.  
Output Connections:  
Two parallel-wired “Speaker” output connectors are pro-  
vided on the rear panel of the VA300. These connectors are  
standard phone jacks (15).  
Full rated output of the amplifier is obtained when the  
speaker load is 8 ohms (two VA300-S Speakers). Speaker loads  
of less than 5.3 ohms (more than three VA300-S Speakers)  
should not be used with this amplifier. No damage to the  
speakers or amplifier will occur, but thermal shutoff of the  
amplifier may result.  
The following list shows various speaker combinations and  
the resultant impedance loads which are suitable for use with  
the VA300 Vocal Master:  
IMPEDANCE  
OHMS (NOMINAL)  
QUANTITY and SPEAKER MODEL  
1 VA300-S  
16  
8
2
3
1
2
3
4
5
VA300-S  
VA300-S  
VA301-S  
VA301-S  
VA301-S  
VA301-S  
VA301-S  
It should be noted that various speaker loads will affect the  
output power of the amplifier. See Figure 3, Page 7 to  
determine amplifier output power for the given speaker load.  
5.3  
3 2  
16  
10.6  
8
WARNING: Do not interconnect the speaker output jacks  
or the speaker cables between two VA300 Amplifiers  
or the VA300 and any other amplifier. This may result  
in damage to one or both amplifiers, and is not covered  
by the Guarantee.  
6.4  
5.3  
10.6  
8
6 VA301-S  
1 VA300-S and 1 VA301-S  
1
1
VA300-S and  
VA300-S and  
2
3
VA301-S  
VA301-S  
6.4  
5.3  
6.4  
5.3  
The VA300 does not use speaker output matching trans-  
formers and thus avoids the distortion, power loss and added  
weight inherent in such transformers. The speaker output vol-  
tage is 28.3 volts, to an 8-ohm load, for 100 watts. This allows  
long speaker lines with wiring practices consistent with those  
used for 25-volt speaker lines.  
1 VA300-S and 4 VA301-S  
2
2
VA300-S and  
VA300-S and  
1
2
VA301-S  
VA301-S  
If additional speakers (more than in the table above) are  
required, use a Shure PM300 Power Master Amplifier to drive  
the extra speakers. See page 11 for instructions.  
Up to 30m (100 ft) of #18 gauge two-conductor cable  
(such as Belden #8452, 8478, 8460, or 8461) may be used to  
6
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Keeping in mind that the speaker columns have a narrow  
coverage angle in the vertical plane and a broad coverage angle  
in the horizontal plane, here are a few generalizations on  
speaker requirements for various room shapes.  
A deep, narrow auditorium would generally require only  
two speakers if the seating is all on one level. If balconies were  
added to this same room, additional speaker columns would be  
required to aim sound up into them.  
A shallow, broad room might require four speakers to be  
utilized in order to cover the extreme horizontal expanse.  
Again if balconies were added, four more speakers might be  
required to expand the vertical coverage.  
The “Theatre-in-the-Round” will almost always necessitate  
the use of at least four columns. More speakers might be re-  
quired to provide adequate horizontal coverage if the theatre is  
very deep.  
To “aim” speakers up for effective coverage of a balcony,  
use the Shure Model A3S-S Speaker Stand. This stand will  
provide added stability and approximately 150 of tilt. In an  
emergency, a spare microphone stand can be used to hold up a  
tilted speaker column. Adjust the height of the microphone  
stand to one or two inches less than the height of the top edge  
of the upper rear port on the back of the speaker. Tilt the  
speaker back until the top edge of the upper rear port rests on  
the top of the microphone stand. Changing the height of the  
microphone stand adjusts the amount of tilt on the speaker.  
Figure 3. Typical output power vs. speaker load impedance for the  
VA300 Vocal Master  
Column Speaker Placement:  
It must always be kept in mind that every room or space is  
acoustically unique and there are no set “rules” for speaker  
placement. A number of generalizations however may be made  
which will at least provide a good starting point under various  
conditions.  
The VA300-S Speaker Column may be used on its side,  
though this reduces the horizontal coverage and the penetra-  
ting power. In a low ceiling, small intimate room such as a  
night club, horizontal mounting, at or near the ceiling level  
may be very successful. An alternate solution for this type of  
small room is to use VA301-S Monitor Speakers. It is not  
recommended that the VA300-S Speaker Column be used on  
its side in larger rooms.  
relation to  
Always consider speaker placement in  
microphone placement. It is desirable for the loudspeakers and  
microphones to be in close proximity in order to provide the  
illusion of source-oriented sound. Source-oriented sound,  
ideally should provide the listener with the illusion that all of  
the sound is coming directly from the sound source, the stage  
or performance area. It is also desirable to keep loudspeakers  
It is not possible to adequately cover all phases of speaker  
placement in all types of rooms in this manual. Just remember  
that every room is acoustically different from any other and  
therefore speaker placement will vary from room to room.  
and microphones separated in order to achieve  
a
high  
threshold of acoustic feedback. While these statements are  
contradictory, a good solution to both can generally be  
accomplished.  
Good speaker placement will provide the audience with  
even distribution of sound intensity, sound which is free from  
excessive reverberation and ethos, and the illusion of sound  
emanating from the real source.  
When the VA300-S Speaker Columns are used on stage, as  
they most often are with a portable system, the speakers  
should be placed at the sides of the stage and as far forward as  
possible. With this setup, the entire stage area will be relatively  
free from acoustic feedback; also the illusion of sound coming  
from the center of the stage will be quite good except for the  
first few forward rows of seats.  
Power Connections:  
Connect the line cord (12) to an outlet which supplies 120  
volts AC, 60 Hz. power. The three-position toggle switch on  
the front panel of the VA300 controls power to the Console.  
This three-position switch (10) is used to reverse line polarity,  
for minimum hum.  
The Shure VA300-S Speaker Column has been designed  
with rear ports to give the column a bidirectional horizontal  
polar pattern below 200 Hz. This design feature was decided  
upon in order to reduce low frequency acoustic feedback and  
provide a relatively “dead” area at the sides of the column  
with the result that microphones may be placed there with  
minimal feedback problems at low frequencies.  
If extension cords are required to supply power to the  
VA300, a high quality #18 gauge or larger cord should be  
used.  
Do not connect more than one VA300, or other amplifier  
to one extension cord. Use separate extension cords for each  
amplifier. Use a maximum of two VA300’s or other amplifier  
per 120 volt house circuit. Failure to adhere to the above will  
result in loss of available output power and the risk of blowing  
house fuses, but will in no way damage the VA300 amplifier.  
Try to keep the speaker columns above the heads of the  
audience. The easiest way to do this is put the speaker col-  
umns on the stage. If the stage is only a foot or two high, raise  
the speaker columns up by placing them on a solid platform or  
box.  
7
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The Treble control permits 10 db of boost or attenuation at  
10 kHz., and is useful to “brighten” an otherwise flat-sounding  
voice. It is often used to great advantage to reduce high  
frequency acoustic reverberation in reflective rooms.  
The Master Volume control (8) adjusts the output level of  
the total mixed output, allowing simultaneous increase or  
decrease of all channels without affecting the mix of the  
inputs.  
Thermal Overload/Ventilation:  
The VA300 is equipped with thermal sensing switches on  
the heat-sinks of the output transistors. The thermal switches  
are set to shut off AC power to the amplifier when a  
temperature of 90°C (194°F) is attained on the heat-sinks; the  
switches will automatically recycle and return AC power when  
the heat-sink temperature reduces to 73°C (164°F). A thermal  
overload light (9), located on the front panel of the VA300,  
will indicate if thermal cycling has occurred. Thermal cycling  
may occur if air is not allowed to circulate through the grilles  
of the amplifier, if there is a prolonged short-circuit on the  
speaker output, or if the ambient temperature exceeds 43°C  
(110°F) while the console is operating at or near full power.  
Thermal cycling may also occur if the speaker load impedance  
is less than 5.3 ohms. See page 6, Output Connections, for  
instructions on speaker connections.  
Reverb:  
The VA300 Console includes  
a
built-in electromechanical  
spring-type reverberation device utilizing a total of four coil  
springs in two transmission paths. Reverberation is  
accomplished by driving the input ends of the springs in a  
torsional mode and transferring the torsional movement at the  
other end of the springs back into an electrical signal which  
exhibits time delay and long decay time. Since the  
reverberation device is an electromechanical device, it is  
sensitive to mechanical shock. It is recommended that if the  
console is moved while operating, the Master Reverb In-Out  
switch (4) be set to the “Out” position. This will avoid the  
possibility of jarring the springs and producing unwanted  
sounds.  
Anti-Feedback Switches:  
Acoustic feedback (a howl or squeal in the speakers) may  
occur, depending on room acoustics and the physical place-  
ment of microphones in relation to the speakers, when volume  
is increased or when Bass or Treble controls are boosted. To  
minimize feedback, four Anti-Feedback switches (1) are  
incorporated in the VA300-C Console. These switches operate  
four “notch filters” which modify the frequency response of  
the unit. Each switch controls part of the audio spectrum. The  
top switch (A-yellow colored) filters the highest feedback  
pitch (squeal), while the bottom switch (D-deep orange  
colored) filters the lowest feedback pitch (howl). The middle  
switches (B and C) filter the middle feedback pitches. The  
action of each filter, with the exception of the (D) filter, has  
very little effect on the tonal quality of the voice. When using  
the (D) filter, a decrease in bass tones may be noticed. To  
compensate for this, simply increase all the Individual Channel  
Bass controls slightly for the desired sound. This feedback  
switch (D) may be used in a very “boomy” environment to  
eliminate some of the low frequency room reverberation.  
If feedback occurs, locate the one Anti-Feedback switch (1)  
which eliminates the feedback. Gain may then be increased or  
tone control increased until another feedback pitch is ap-  
parent. One of the other filters may then be introduced which  
will eliminate that feedback. IMPORTANT: no more than two  
filters should be used simultaneously; the effect of more than  
two filters is one of reducing overall gain and the overall tonal  
quality of the system may be significantly affected.  
Unique to the Vocal Master is the fact that no matter how  
much reverberation is used, there is always a backbone of  
“dry” signal on the total output. Of great importance to the  
user, and also unique to the Vocal Master, is the system which  
permits the reverb intensity to be increased without increasing  
overall gain. In most units which employ artificial reverbera-  
tion, as the intensity of the reverberant signal is increased, the  
total gain also increases; this usually leads to acoustic feed-  
back. The reverb mixing system used in the Vocal Master re-  
duces the “dry” signal as the reverberant signal is increased;  
this accounts for an almost constant gain and reduces the pos-  
sibility of feedback as reverb is added.  
Three controls are pertinent to the VA300-C reverb  
operation. The amount of reverb is selected by the Reverb  
Intensity control (2). Generally, this control is not used above  
a setting of “5” for vocalists, though higher settings may be  
required for instruments. Separate Reverb Bass and Treble  
controls (3) are provided for the reverb signal only and are  
independent of the other tone controls on the unit. These  
controls modify the reverberant signals in essentially the same  
way the individual channel tone controls modify the  
non-reverb, or “dry” tones. The reverb tone controls allow the  
user to change the reverberant sound to compensate for the  
reverberation of each room in which the system is used. In a  
“boomy” sounding room, decrease the Reverb Bass control or  
increase the Reverb Treble control, or do both to equalize the  
reverb signals for the desired sound.  
The individual channel Reverb In-Out switches (7) are basi-  
cally intended to allow the user the option of having reverb on  
one or more channels while retaining a “dry” (non-reverb)  
signal on the other channels. These switches can also be used  
to perform a variety of other functions which are described  
under Special Operating Instructions.  
The master Reverb In-Out switch allows instantaneous re-  
verb turn-on or shut-off, no matter how the individual channel  
reverb selector switches are set. This feature allows the user to  
“pre-program” the console for reverberation.  
Mixing:  
Each of the six channels employ an individual Volume  
control, Bass control, Treble control, and reverberation  
selector switch.  
Individual Volume controls permit proper mixing of the  
various inputs.  
The Bass control allows 13 db of boost or attenuation at  
100 Hz. It permits enhancement of a thin voice and is often  
useful as a low frequency attenuator in “boomy” rooms.  
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A phone jack marked “Reverb Switch” (17) is located on  
the rear panel of the console. This jack parallels the Master  
Reverb In-Out switch (4) and allows the reverb to be  
remotely turned on and off when the Master Reverb switch is  
in the “In” position. The Master Reverb switch will always  
override the remote switch and turn off the reverb, so care  
should be taken to insure that the Master Reverb switch is in  
the “In” position if an external remote switch is desired to  
control the reverb switching.  
To Tape Recorder:  
A phone jack on the rear panel marked “To Tape Recorder”  
is provided for connections to tape recorders for making  
recordings, or to additional power amplifiers, such as the  
PM300. For specific instructions for such connections see the  
section marked Special Operating Instructions.  
The signal at this jack is the same signal that drives the  
Console power amplifier and is considered to be an auxiliary,  
high impedance output for driving high-level, high impedance  
inputs. Note that all the Console controls, Master Volume,  
Antifeedback, Reverb, etc., affect this signal.  
Since the remote switching is D.C., and no audio appears on  
this jack, any length of unshielded cable can be used between  
the Console and the remote switch without hum or noise. The  
remote switch can be any single pole, single throw switch.  
VA300 Vocal Master  
SPECIAL OPERATING INSTRUCTIONS  
Echo:  
Echo may be introduced into the VA300-C by using an  
accessory echo device (such as an Echolette or Dynacord).  
To use an external echo device in conjunction with the  
VA300, interconnect the two units as follows: attach low  
capacitance, single conductor, shielded cable to the Console  
jack marked Echo “To Input.” Connect the opposite end of  
this cable to the echo device jack marked “Input” (Aux. High  
Level). Connect a similar cable to the echo device jack marked  
“Output” (Aux. High Level) and connect the opposite end of  
this cable to the Console jack marked Echo “To Output.”  
Figure 4  
controls on the echo unit and the “Echo Gain” control on the  
Console.  
Using the “Echo Gain” Control in conjunction with the  
level controls on the echo unit, the echo signal may be  
balanced with the gain of the VA300 so there is no change in  
level when the individual Reverb In-Out switches are operated.  
Tape Recording:  
T o t a p e r e c o r d t h e V A 3 0 0 o u t p u t , c o n n e c t  
a
l o w  
When connected in the manner described, the individual  
channel Reverb In-Out switches will offer selective echo in  
addition to selective internal reverb. With the Master Reverb  
In-Out switch in the “Out” position, the individual channel  
Reverb switches will select “dry” (no echo) in the “In” posi-  
tion and “Echo” in the “Out” position.  
capacitance, single conductor, shielded cable (such as Belden  
#8401, #8410, #8411) from the jack marked “To Tape  
Recorder” to the Auxiliary High Level Input of the tape re-  
corder.  
Limit the cable length to 15m (50 ft) to avoid loss of high  
frequency signal and to reduce the possibility of hum pickup.  
Use the tape recorder controls to set recording levels. Note  
that the VA300 Master Volume control affects the signal level  
at the “To Tape Recorder” jack. To make stereo tape  
recordings see the section on stereo operation, on page 12.  
Changing the Master Reverb In-Out switch to the “In” po-  
sition will permit selection of echo (individual channel Reverb  
switch “Out”) or reverb (individual channel Reverb switch  
“ I n ” ) .  
The output signal of the VA300-C at the jack marked Echo  
is considered high level and is suitable for use  
“To Output”  
with loads of 10 kilohms or greater. The jack marked Echo  
“To Input” presents a 40 Kohm load to the source and will  
accept high level signals. Some echo units employ inputs  
suitable only for very low level; in such cases, a resistance pad  
(attenuator) will be required in the line from the VA300-C to  
the echo device input. If the echo device input is suitable for  
only high impedance microphones a resistive pad consisting of  
a 100 kilohm and a 3.3 kilohm resistor is required. (See figure  
4). Almost all makes of echo units use different output levels;  
these may generally be compensated for by use of the gain  
Playing Tapes:  
To play back tape recorded material through the VA300,  
connect a cable from the tape recorder’s High Level Output to  
one of the six Input jacks on the Console. Set that channel’s  
Input Attenuator Switch to “Inst.” Individual channel Treble  
and Bass controls should be set to 12:00 o’clock.  
The individual channel Volume Control may be used, in  
conjunction with the tape recorder playback level control, to  
adjust volume.  
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the same when talking directly into either microphone or  
directly between them if they are in phase with each other. If  
the sound drops drastically, or a dead spot is found when  
talking between the two microphones, one of them, or their  
cables, is out of phase.  
To change the phase of the one microphone, or cable, inter-  
change the conductors that are wired to Pins No. 2 and No. 3  
of the Cannon connector. Test all the microphones and cables  
this way to insure that they are all “in phase” with each other.  
Phonographs:  
To connect a” phonograph having a magnetic cartridge, and  
no preamplifier, to the VA300, attach a cable from the  
phonograph output to one of the six Input jacks on the  
Console. Set that channel’s Input Attenuator Switch to the  
“Mic.“ position. Set the Treble control for that channel at  
9:00 o’clock and the Bass control at 3:00 o’clock to provide  
approximate R.I.A.A. phono equalization. Use the individual  
channel Volume Control to adjust the volume from the phono-  
graph.  
Additional Inputs Using a Mixer:  
To connect a phonograph having a magnetic cartridge, and a  
phono preamplifier, to the VA300, connect a cable from the  
phono-preamplifier output to one of the six individual channel  
input jacks on the Console. Set that channel’s Input  
Attenuator Switch to “Inst.” Set the Treble and Bass controls  
for that channel to 12:00 o’clock. Use the individual channel  
If additional microphone inputs are required, a microphone  
mixer (such as a Shure M68 type) or a second Vocal Master  
Console may be used.  
When using a microphone mixer for the additional inputs,  
connect the mixer High Impedance Mic. Output to one of the  
Input jacks on the VA300 Console. The individual input  
control on the channel, bass, treble, volume, and reverb,  
provide master control over the mixer inputs. See Figure 5.  
Volume Control in conjunction with the phonograph’s level  
control, to adjust the volume.  
For stereo phonographs see the section on Stereo  
Operation.  
Musical Instruments:  
Most electrified musical instruments may be amplified  
through the VA300 with great effectiveness. Generally the  
output of electrified instruments is greater than the output of  
a
dynamic microphone and therefore the individual channel  
Input Attenuator Switches should be set to “Inst.” to avoid  
exceeding the preamplifier input clipping level. See the section  
on Input Connections for further information.  
Electrified instruments may then be connected directly to  
the individual Input jack. If low volume occurs, return the  
Input Attenuator Switch to the “Mic.” position.  
Low Impedance Microphones:  
Low impedance microphones may be used with the VA300  
when accessory matching transformers (Shure Model A95UF)  
are added to the Input jacks (22).  
Figure 5  
The Shure Model A95UF Line Matching Transformer is  
terminated at the high impedance end with a locking-type  
phone plug for direct connection to the input jack; the low  
impedance end is terminated with a Cannon-type, 3-pin female  
connector.  
When reverb and external echo are not required, the mixer  
may be connected to the Echo “To Output” jack. With this  
arrangement the mixer Aux. High Level Output is connected  
to the Console Echo “To Output” jack. See Figure 6.  
The main advantage of low impedance microphones is that  
virtually unlimited cable lengths may be used, whereas high  
impedance microphones require that cable length not exceed  
6m (20 ft).  
Low impedance microphones should be wired using low  
capacitance, two-conductor, shielded cable (such as Belden  
#8413, #8422). When wiring Cannon-type connectors,  
the cable shield should be connected to Pin No. 1 and one of  
the two conductors to Pin No. 2, the other conductor to Pin  
No. 3. When using several microphones, consistency of cable  
wiring should be followed to insure that all microphones are  
“in phase.“  
To test two microphones and their cables for proper  
phasing, connect them to the VA300. Talk or sing into the  
two microphones while holding them 8 to 10 cm (3 to 4 in.)  
apart. The amplified sound from the Speaker Column will be  
Figure 6  
10  
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Adjust the Echo Gain control and the mixer volume con-  
trols to match the gain of the VA300 inputs. With the mixer  
connected in this configuration the individual Reverb In-Out  
switches on the Console should be set to the “In” position.  
When these switches are set to the “Out” position, that indi-  
vidual channel will be muted, or “cued.” See the description  
on “cuing.” Still more inputs may be added by stacking addi-  
tional mixers onto the first mixer. See the Mixer Operation  
Instructions.  
PM300 Power Master amplifier and additional Speaker Col-  
umns. Generally two Speaker Columns should be connected to  
each amplifier. See Figure 8.  
Additional Inputs Using a Second VA300-C:  
A second VA300 Console may be used as a mixer to provide  
additional inputs. Connect the Echo “To Input” jack on the  
second Console to an Input jack on the original Console and  
set the Input Attenuator switch on that input to the “Inst.”  
position. See Figure 7.  
Figure 8  
To use the PM300 Power Master Amplifier, connect a cable  
from the VA300 Console jack marked “To Tape Recorder” to  
an input on the PM300 Amplifier. The cable used should be  
limited to 15m (50 ft) of low capacitance, single conductor,  
shielded type (such as Belden #8401, #8410, #8411).  
Set the Volume Control on the PM300 to “7” to obtain the  
same amplification level from both the VA300 and the PM300  
when identical speaker loads are employed on each amplifier.  
The output of the PM300 will “follow” all control settings of  
the VA300 Console. Additional PM300 Amplifiers may be  
added to the system by connecting a cable from the unused  
input jack on the last PM300 to one of the input jacks on the  
next PM300. See Figure 8. NOTE: The unused input jack on  
the last PM300 in the “chain” can then be used for tape  
recording. See the Special Operating Instructions on Tape  
Recording.  
Figure 7  
At this point it should be noted that the microphones on  
the original Console are out of phase with those on the second  
Console. If the microphone pickups for the two Consoles are  
different sources, for instance the original Console is a vocal  
pickup and the second an instrumental pickup, this is not a  
problem.  
To use a second VA300 Console in place of a PM300 to  
obtain additional power, connect a cable from the original  
VA300 Console jack marked “To Tape Recorder” to the jack  
marked Echo “To Output” on the second VA300 Console. See  
Figure 9.  
For further information on Phasing see the section on Low  
Impedance Microphones on page 10.  
With this arrangement, the power amplifier section on the  
second Console is not being used. If additional power and  
coverage are required, this power amplifier section may also be  
used. See the section on additional power using a second Con-  
sole.  
If it is necessary to use two consoles on a permanent basis a  
factory authorized COMMON MIX. BUS MODIFICATION is  
available. Contact your Shure Dealer or the Shure Factory for  
further information on this.  
Additional Power or Area Coverage:  
In those applications which require more power than one  
VA300 Vocal Master system is able to deliver, such as very  
large auditoriums and stadiums, and in those installations  
where the audience is so widespread, such as Theatre-in-the-  
Round and for coverage in adjoining rooms or when more than  
three speaker columns are required, it is advisable to use a  
Figure 9  
11  
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Console speakers will require that the individual channel  
Reverb “ln-Out” switches be in the “In” position. The channels  
on which the switches are in the “Out” position will be heard  
at the speakers connected to the PM300. This may be used for  
a special echo effect, like “throwing” a voice from the rear of  
the room.  
Stereo recordings may also be made using one VA300  
Console and one PM300. One channel of the stereo tape  
recorder would be fed from the Console jack marked “To  
Tape Recorder;” the other channel would be fed from the  
open input jack of the PM300. NOTE: Reverberation can be  
added to only those channels that are being reproduced by the  
speakers connected to the VA300 Console.  
Set the controls on the second VA300 Console as follows:  
Antifeedback Switches to “Out,” Master Reverb Switch  
“Out,” Individual Volume Controls to “0,” and the Master  
V o l u m e t o “ 5 . ” A d j u s t t h e E c h o “ G a i n ” C o n t r o l t o  
approximately 1/3 rotation from the c.c.w. off position, and  
use this control as a volume control to obtain the same  
amplification level from both of the VA300 Consoles. Once  
the Echo “Gain” Control is preset, the output of the second  
VA300 Console will “follow” all control settings of the  
original VA300 Console. Small changes in amplification level  
on the second VA300 Console can be made by adjusting its  
Master Volume Control.  
An additional VA300 Console, PM300 or tape recorder can  
be connected to the “To Tape Recorder” jack on the second  
VA300 Console.  
A very convenient way of recording with a stereo tape re-  
corder is to record the vocals on one tape channel and the  
instruments on the other tape channel. Connect the VA300  
“To Tape Recorder” jack to the right channel auxiliary input  
of the tape recorder. A separate microphone is connected to  
the left channel microphone input of the tape recorder; an  
omnidirectional microphone suspended from the ceiling is  
recommended.  
A stereo phonograph may be connected for stereo operation  
with either of the two above systems. Connect the left phono  
output to one Input, and the right phono output to a second  
Input. Refer to the section on Phonographs on page 10, for  
Input arrangements. Set the individual Reverb In-Out switches  
on these two channels to direct the sound to the left and right  
speakers.  
Microphone Cuing:  
Microphone “cuing” may be preset by using the individual  
Reverb “In-Out” switches to reduce the volume of, or turn off  
an unused individual microphone channel. This is useful when  
it is desired to preset the individual volume controls but only  
have one or two microphones “live” at a time. This allows  
tighter control of feedback, or additional control to avoid  
pickup from off-stage microphones.  
Insert an unwired phone plug into the Echo “To Output”  
Jack. With the individual Reverb switch in the “In” position,  
the channel will operate normally. In the “Out” position, the  
channel level is reduced or turned off. The level of the “Out”  
or “Cued” channel is controlled by the “Echo Gain” control;  
turning this control fully counterclockwise turns off the  
“Cued” channel. Returning the individual Reverb “In-Out”  
switches to “In” restores the channel to the normal level.  
For remote “Cuing” on and off, plug a foot switch into the  
Echo “To Output” Jack on the VA300 Console. Turn the  
“Echo Gain” control fully clockwise. With the foot switch in  
the “On” position, the channels will operate normally. With  
the foot switch “Off” those channels switched to individual  
Reverb “Out” are turned completely off. This is useful for  
remotely turning on and off preselected channels (Micro-  
phones). The cable used with the foot switch should be limited  
to 15m (50 ft) of low capacitance, single conductor, shielded  
type (such as Belden #8401, #8410, #8411) to avoid high  
frequency signal loss and to reduce the possibility of hum  
pickup in the cables.  
Connecting a VU Meter:  
An external VU meter may be connected in parallel across  
the speaker wires of the VA300 with a resistor attenuator, as  
shown below. Use a true VU meter (such as Simpson Model  
No. 1349) and three resistors connected as shown. The resis-  
tors should be ½-watt carbon 5%, or 1% if available.  
Stereo Operation:*  
Stereo operation may obviously be obtained by using two  
VA300 systems without any interconnections. If it is desired  
to have one of the microphones connected to both systems,  
simply use a “Y” connector on that microphone and feed its  
signal to one Input on each Console. For making stereo tapes,  
the “To Tape Recorder” jacks, one on each console, may now  
be connected to the left and right Auxiliary Inputs, respec-  
tively, on a stereo tape recorder.  
Figure 10  
With an 8-ohm speaker load (two VA300-S) zero VU is 50  
watts. Output power for other VU readings is shown in the  
table below.  
Alternatively, stereo may be accomplished by using one  
VA300 system and one PM300 with additional speakers. A  
connection is made from the VA300 jack marked Echo “To  
Input” to an input of the PM300. Those input channels of the  
Console which are to be reproduced through the VA300  
Power to 8-ohm load  
100 watts  
50 watts  
V U  
+3  
0
- 3  
- 7  
- 1 0  
*
As  
a
general rule stereo sound reinforcement of this type  
25 watts  
10 watts  
5 watts  
is quite annoying to listen to and is recommended only for  
special effects.  
12  
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V A 3 0 0 - C F U N C T I O N A L D I A G R A M  
Figure 11  
VA300 Vocal Master  
SERVICE INSTRUCTIONS  
Amplifier Service (See Guarantee):  
access to the front panel. (Note: Uncoil the cable before  
pushing the chassis. Push against amplifier chassis not against  
the grille on the back.) The entire amplifier may be pulled  
forward at this point and separated from the case.  
The VA300 Vocal Master Console uses components of the  
highest quality, operating well within their respective ratings  
to assure long life. CAUTION: There are no user serviceable  
parts inside. Refer servicing to qualified service personnel.  
Front Panel Removal:  
Amplifier Removal:  
To ease servicing of components on the front panel, remove  
the four screws on the bottom rim of the front panel. (Note:  
Stand amplifier on end with transformer side down). Figure  
12, Page 14, shows the amplifier with the front panel  
removed and tilted to a convenient servicing position.  
To remove the amplifier from its carrying case, remove the  
three screws located at the top front edge of the case and the six  
screws, four within the plastic feet, on the bottom of the case.  
Push the amplifier slightly forward from the back to permit  
13  
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Figure 12  
Driver Transistors:  
Output Transistors:  
The driver transistors Q33 and Q34, Figure 12, Page 14 are  
located on the amplifier chassis. Before removing these  
transistors, write down the lead color and location at each  
transistor solder junction. If replacing transistors, apply type  
120 Wakefield thermal joint compound to each side of the  
insulation wafer to provide good thermal transfer from  
transistor to chassis. After replacement and before connecting  
transistor leads, check transistors with an ohmmeter between  
case and chassis; there should be no continuity. Be sure that  
these transistors are not inverted in the circuit; they are not  
identical devices. Q33 is an NPN transistor, while Q34 is PNP  
transistor. Refer to the lower right corner of the circuit  
diagram, Figure 18, Page 21, for terminal code. NOTE: When  
replacing driver transistors, perform the following modifica-  
tion (if not already performed): place insulated tubing over  
the leads of a 3.3k, 1/2W resistor and solder it across the  
terminals to which the white and black leads of transformer  
T2 are connected. Add a second ground wire from the  
terminal nearest the front of the unit to which resistor R21 is  
connected, through the chassis grommet, to the ground on the  
Speaker Output jacks (same path as existing wire).  
The output transistors Q35 through Q38, Figure 12, Page  
14 are located on the black finned heat sinks. Replacement  
procedure is the same for the driver transistors, Q33 and Q34.  
NOTE: The output transistors, Q35 through Q38, must be  
matched for current gain and part number. When replacing  
output transistors be sure to replace with devices which have  
the same gain code as the original transistors. Shure transistors  
are coded either by the last letter in the part number or a  
color-dot on the top of the transistor.  
Blue Dot = A  
Red Dot = B  
Orange Dot = C  
Yellow Dot = D  
Green Dot = E  
Brown Dot = F  
Pink Dot = G  
Violet Dot = H  
Black Dot = J  
White Dot = K  
14  
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Figure 13  
Figure 14  
Small Signal and Predriver Transistors:  
Check Transistors and Diodes:  
Defective transistors and diodes may be located by use of an  
ohmmeter. Polarity of the ohmmeter must be verified before  
these checks are made.  
Transistors Q1 through Q30, Figure 14, Page 15 and Q31 and  
Q32, Figure 12, Page 14 are mechanically supported by their  
leads. When replacing these transistors, it is imperative that  
With a known diode orientation, measure the diode resist-  
ance in the forward and reverse directions. The lowest meter  
reading will establish the probe at the cathode end (schematic  
symbol arrow points to cathode) as the “minus” probe while  
the other probe will be “plus”. Some ohmmeters are not polar-  
ized in this manner with relation to “volts plus probe” and  
“volts minus probe.”  
proper lead configuration be followed.  
A
minimum of sold-  
ering heat should be used to avoid damage to the transistor.  
Refer to the lower right corner of the circuit diagram, Fig-  
ure 18, Page 21, for lead code.  
Diodes:  
To check transistors, the ohmmeter should be set to the 100  
ohm or 1,000 ohm scale. Small signal transistors (Q1 through  
Q32) must be removed from the circuit before testing. Transis-  
tors mounted with screws (Q33 through 038) may be tested in  
place; however, the leads to these transistors must be removed.  
If all conditions in the following table are met, the  
transistor may be considered free of any gross defect; if any of  
the following conditions are not met, the transistor should be  
replaced. See lower right corner of circuit diagram, Figure 18,  
Page 21, for transistor terminal code.  
Diodes D6 and D7, see Figure 12, Page 14 are located on the  
black finned heat sink with the output transistors. Special care  
is required to insulate these diodes from the heat sink while  
providing good thermal transfer from sink to diode. Heat  
shrinkable tubing or “spaghetti” should be placed over the  
diode and connecting leads; the diode should be securely  
clamped to the heat sink with the clamp provided.  
15  
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OHMMETER CONNECTIONS  
OHMMETER READING  
Lamp Replacement:  
The two lamps I2 and I3, Figure 12, Page 14 which provide  
illumination of the front panel controls are 115 to 125 volt,  
15 watt incandescent bulbs. These bulbs are soldered and  
epoxied into the molded plastic sockets in order to meet  
Underwriters’ Laboratories requirements. The assembly may  
be removed by unsoldering the lamp leads at the terminal  
strips and removing the screw that holds the socket to the  
chassis.  
“Plus” Lead  
“Minus” Lead  
N.P.N. Transistor P.N.P. Transistor  
Collector  
Emitter  
Collector  
Emitter  
Base  
Emitter  
Collector  
Base  
Base  
Collector  
Emitter  
High  
High  
High  
High  
Low  
Low  
High  
High  
Low  
Low  
High  
High  
Base  
With the ohmmeter “plus” probe on the anode end of a  
diode, and the “minus”  
Reverberation Assembly:  
probe on the cathode end, the  
The Reverberation Assembly M3, Figure 13, Page 15 may  
be removed and returned to the factory Service Department  
for repair if a malfunction should occur. The amplifier can be  
operated without this assembly. To eliminate possible damage,  
or shock hazard, the plug-in cables should be temporarily  
inserted in the nylon inserts normally used to mount this  
sub-assembly. If extensive damage has occurred, a replacement  
Reverberation Assembly may be ordered through the dealer or  
from the factory Service Department.  
ohmmeter should read approximately 2000 ohms or less. With  
the meter probes reversed, a reading of about 10,000 ohms or  
more should occur. If either of these conditions is not met, the  
diode should be replaced.  
Power Drain Resistor (RSEL):  
The following condition may occur after replacement of  
driver transistors Q33 and Q34, output transistors Q35  
through Q38, or diodes D6 and D7. If the unit appears to  
operate at an excessively high temperature or thermally  
recycles after about 10 minutes with no signal input, the  
“cold” standby power drain may be excessive (up to 20 watts  
Replacement Parts:  
Parts that are readily available through local electronic parts  
distributors are not shown on the accompanying Parts List.  
Their values are shown on the circuit diagram. The special  
custom made parts are shown on the Parts List.  
higher than normal;  
a
higher power drain indicates further  
The commercial alternates shown on the Parts List are not  
necessarily equivalents, but may be used in the even that direct  
factory replacements are not immediately available. To  
maintain the highest possible performance and reliability,  
Shure factory replacement parts should be used. When  
ordering replacement parts, specify the Shure Replacement Kit  
Number, description, product model number and serial  
number.  
circuitry problems). The nominal power drain under these  
conditions should be 60 watts; if the measured figure exceeds  
75 watts, insert a resistor (RSEL) in parallel with the 56-ohm  
resistor between the base of transistor Q33 and the junction of  
diodes D6 and D8 (figure 17, page 21). RSEL (½W, 10%)  
should be either 180 ohms to decrease the power consumption  
by 20 watts, or 82 ohms to decrease the power consumption  
by 30 watts.  
GUARANTEE: This Shure product is guaranteed in normal use to  
be free from electrical and mechanical defects for a period of one  
year from the date of purchase. Please retain proof of purchase  
date. This guarantee includes all parts and labor.  
EQUIPMENT DESIGNED FOR USE  
WITH THE VA300 VOCAL MASTER  
VA300-S  
VA301-S  
PM300  
Vocal Master Speaker Column  
Vocal Master Monitor Speaker  
Power Master Booster Amplifier  
Soft Cover Set  
SHIPPING INSTRUCTIONS: Carefully repack the unit and return it  
prepaid to the factory. If outside the United States, return the unit  
to your authorized Shure Service Center for repair. The unit will be  
returned to you prepaid.  
A3PC  
A3PC-C  
A3PC-S  
A31PC-S  
A3S-C  
Console Soft Cover  
Speaker Column Soft Cover  
Monitor Speaker Soft Cover  
Fold-Up Console Stand  
Speaker Stand  
SERVICE: If information or service should be required, contact  
your local Shure Vocal Master dealer explaining your difficulty in  
detail. In addition, the Shure factory service department will be  
ready to assist you immediately upon request.  
ASS-S  
A50XC  
A3S-T  
15m (50 ft) Speaker Extension Cable  
Speaker Stand  
A95 Series  
Low Impedance Transformers  
16  
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VA300-S Speaker Servicing:  
1. Unplug cables from speaker jacks.  
2. Remove back of cabinet.  
3. Disconnect one end of the lead connected between the  
two 10 inch loudspeakers.  
4. Apply 60 Hz, 1 to 10 volts, to each of the six speakers  
individually. Any buzzes or rattles indicate possible  
failure. The speakers should all sound generally alike  
with a slight difference between the 8 inch and 10 inch  
loudspeakers.  
5. Using an ohmmeter, measure resistance of the voice-coil  
of each loudspeaker individually. Each 10 inch speaker  
should measure between 12 and 16 ohms. Each 8 inch  
speaker should measure between 5 and 8 ohms. Read-  
ings outside of these limits indicate possible failure.  
6. Reconnect lead disconnected in Step 3. Install back of  
cabinet tightly.  
Figure 15  
REPLACEMENT PARTS LIST FOR  
VA300-S SPEAKER COLUMN  
REP.  
KIT  
REPLACEMENT KIT CONSISTS OF  
ITEM  
QTY. PART NO.  
NO.  
DESCRIPTION  
8 Inch Loudspeaker  
10 Inch Loudspeaker  
Rear Panel Assembly  
Column Cabinet  
Cable and Plug Assembly*  
Handle Assembly  
Bumper (Plastic Foot)  
Name Plate  
80A207  
80A208  
90A1375  
94B462  
90A1373  
95A436  
65A1001A  
39A279  
48A20  
M10  
M11  
M12  
M13  
M14  
M15  
M16  
M17  
M18  
RKC29  
RKC56  
RKC31  
RKC25  
RKC4  
RKC32  
RKC39  
-
1
1
1
1
1
1
4
-
-
-
Side Rail  
*Recommended replacement cable connectors (not available from  
factory; Switchcraft part numbers given): Straight Locking Plug: #282;  
Right Angle Locking Plug: #228; Locking Extension Jack (for  
Extension Cable Assembly): #123.  
Figure 16  
17  
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REPLACEMENT PARTS LIST FOR VA300-C CONSOLE  
**  
REPLACEMENT KIT CONSISTS OF:  
COMMERCIAL ALTERNATE  
NONE  
REPL.  
KIT NO.  
ITEM  
QTY.  
PART NO.  
DESCRIPTION  
86A631  
86B631  
86A406  
86A408  
86A410  
86A409  
80A159  
80A160  
80A269  
RKC26  
RKC27  
RKC46  
RKC22  
RKC50  
RKC23  
1
1
4
1
2
1
5
5
-
Capacitor, 2500 x 100  
Capacitor, 4000 x 60  
Silicon Rectifier, 3A., 200V.  
Zener Diode, 22V., 1 W., 5%  
Silicon Rectifier, 100 V. ½A  
Zener Diode, 3.6 V., 1 W., 5%  
A.C. Fuse  
C1  
NONE  
C2  
D1-D4  
D5  
D6, 7  
D8, D9  
F1  
Motorola No. 1N4721  
Motorola No. 1N4748A  
Motorola No. 1N4002  
Motorola No. 1N4729A  
Littelfuse 3AG/3A/SB (Slo-Blo)  
Littelfuse 3AG/5A  
Bussman MDV/5A/5B (Slo-Blo)  
Pigtail  
RKC62  
-
}
{
D.C. Fuse  
F2  
F3  
Wired-in A.C. Fuse  
Leecraft No. 36N1311-6  
NONE  
Switchcraft No. 12-A  
Switchcraft No. 14-B  
Switchcraft No. 11  
NONE  
1
2
1
1
1
1
I1  
RKC45  
RKC34  
RKC87  
RKC86  
RKC68  
RKC82  
80A79  
Pilot Lamp, Thermal Overload  
Lamp Assembly, Front Panel  
Phone Jack  
Phone Jack  
Phone Jack  
90A1463  
95C446  
95A446  
95B446  
95A510  
I2, I3  
J1-J7  
J8  
J9-J12  
M1  
3-Wire A.C. Line Cord  
and Grounding Plug  
4
1
1
1
1
3
3
3
-
65A685  
95A430  
95A444  
90BD2600  
90A1370  
9082285  
90B1391  
65A686A  
95A429  
32A627  
Bumper (Plastic Foot)  
Reverberation Assembly  
Antifeedback Inductor Assembly  
Handle Assembly  
M2  
M3  
M4  
M5  
M6  
M7  
M8  
M9  
RKC39  
RKC30  
RKC36  
RKC32  
RKC24  
RKC49  
Gibbs No. 4L (Insulated Output)  
NONE  
NONE  
NONE  
NONE  
NONE  
NONE  
Littelfuse 342014  
NONE  
Console Cabinet  
Volume Control Knob Assembly  
Treble Control Knob Assembly  
Bass Control Knob  
Fuse Holder  
Knob and Screw (Line Cord Storage  
Spindle)  
RKC48  
}
{
M10, M11  
M12  
-
-
-
1
RKC70  
NONE  
NONE  
Motorola No. MPS-6521  
Texas Inst. No. 2N3711  
Motorola No. MPS-3392  
RCA No. 40349  
-
-
4
Cabinet Upper Side Rail  
Cabinet Lower Side Rail  
Transistor (Replaces 86A327)  
M13  
M14  
Q1-Q23,  
Q25-Q31  
Q24  
Q32  
Q33  
Q34  
-
-
-
-
-
48A21  
48A22  
86A349  
-
-
-
RKC9  
3
1
1
1
86A324  
86A333  
86A338  
86A339  
86B339  
86A332*  
86B332*  
46A017  
Transistor  
RKC52  
RKC53  
RKC55  
RKC54  
Transistor 110 V. BVCEO Min  
Transistor 110 V. BVCEO Min.  
Transistor 105 V. BVCEO Min.  
(Mutually Interchangeable)  
Transistor 110 V. BVCEO Min.,  
150 W.  
RCA No. 2N3441  
Motorola No. 2N3741 Selected  
RCA No. 2N3773  
NONE  
-
Q35-Q38  
-
-
R1-R6,  
R14  
R7-R12,  
R16  
R13  
R15  
R17, R18,  
R19, R21  
R20  
R22  
R23  
RKC58  
RKC59  
Potentiometer, Dual 50K/50K  
1
1
NONE  
46A016  
Potentiometer, 50K.  
NONE  
NONE  
NONE  
1
1
-
46A018  
46A020  
45EC439B  
RKC57  
RKC60  
-
Potentiometer, 50K.  
Potentiometer, 2.5K.  
Resistor, .43 ohms, 5 W.  
-
-
-
-
-
-
-
NONE  
NONE  
-
-
45EC209B  
45EC129B  
45A38  
55A72  
95A551  
55A54  
55A73A†  
55A73E  
55A73D  
55A73C  
55A73B  
51A215  
51A217  
Resistor, .20 ohms, 5 W.  
Resistor, .12 ohms, 5 W.  
Resistor  
Toggle Switch  
Thermostat  
Slide Switch (Screw Slot)  
Rocker Switch, Chrome  
Rocker Switch, Red/Orange  
Rocker Switch, Orange  
Rocker Switch, Orange/Yellow  
Rocker Switch, Yellow  
Power Transformer  
1
1
1
4
1
1
1
1
1
1
1
RKC47  
RKC61  
RKC37  
RKC10  
RKC44†  
RKC43  
RKC42  
RCK41  
RKC40  
RKC35  
RKC28  
Workman No. FRT-2  
Cutler-Hammer No. 7563K5  
NONE  
S1  
S2, S3  
S4-S9  
S10-S16  
S17  
S18  
S19  
S20  
T1  
T2  
Continental-Wirt No. G-326  
NONE  
NONE  
NONE  
NONE  
NONE  
NONE  
NONE  
Feedback Transformer  
NOTE: The Commercial Alternates shown above are not necessarily equivalents, but may be used in the event that direct factory replacements are not immediately available. To  
maintain the highest possible performance and reliability, Shure Factory Replacement Parts should be used.  
*When ordering 86A332 or 86B332, specify current gain code. See Page 14.  
**Parts listed as RKC Kits should be ordered by that kit number. Any orders received for piece parts where RKC Kit number is shown will be shipped in RKC quantities.  
†For gray switch, order Part No. 55A73F.  
18  
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ALTERNATE POWER SUPPLY INCORPORATED IN EARLY PRODUCTION UNITS  
Figure 17  
19  
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Notes to Circuit Diagram  
D.C. Voltage Measurements:  
13. Transistor voltage measurements for Q20 through Q27  
must be made with master reverb switch and individual  
channel reverb switches in the “IN” position.  
Check the DC voltages first, because any deviation from  
the nominal voltages will affect the AC voltage. In the power  
amplifier section, Q31 to Q38, the key DC voltages are +94  
(collector of Q33, Q35, and Q37). +22 (collector of Q31), and  
the split voltage at the junction of R17, R19, R20, and R22.  
If these three key DC voltages are correct, then proceed with  
the AC voltage measurements.  
14. A.C. voltage measurements may vary  
values shown.  
±
50% from the  
15. For A.C. measurements on Q25, Q26, and Q27, the  
frequency may be varied ± 100 Hz. to obtain the A.C.  
measurements shown.  
The numbers within the symbols  
on the circuit diagram  
denote the D.C. voltage at that point with the following test  
conditions:  
Ohmmeter Measurements:  
With the A.C. line cord unplugged and the power switch in  
the “OFF” position, the following ohmmeter measurements  
may be made.  
Voltages measured at points indicated with respect to  
chassis, unless otherwise indicated.  
Line voltage 120v. 60 Hz (cps).  
1.  
Reverberation Assembly M3 input and output coils  
approximately 180 ohms.  
1.  
2.  
3.  
4.  
No input signal applied.  
Antifeedback Inductors M4 approximately 300 ohms.  
B+ to ground approximately 50 ohms.  
2.  
3.  
4.  
D.C. voltage measurements may vary ±20% from the  
values shown.  
Ohmmeter plus probe to the junction of R17, R19,  
R20, and R22, ohmmeter minus probe to ground:  
greater than 100 ohms.  
Measured with  
ance.  
a
VTVM of 11-megohms input imped-  
5.  
6.  
Q27 transistor voltages on the circuit diagram are with  
the master reverb switch in the “IN” position. With the  
master reverb switch in the “OUT” position, Q27 vol-  
tages are: emitter 4.0, base 0.0, and collector 22.0  
Ohmmeter plus probe to B+, ohmmeter minus probe to  
the junction of R17, R19, R20, and R22: greater than  
100 ohms.  
5.  
To test transistors and diodes, see page 15.  
6.  
Shure part numbers are not shown in the parts list  
accompanying the circuit diagram if parts are readily available  
through local electronic parts supply distributors. In these  
instances, the circuit diagram will show the values of the  
standard parts.  
All capacitor values are shown in microfarads. All nonelec-  
trolytic capacitors are to be 100 volts or more unless otherwise  
specified in the circuit diagram. Electrolytic capacitors are  
shown in microfarads and volts.  
All resistor values are shown in ohms. Resistors are all to be  
10% tolerance unless specifically noted on the circuit diagram.  
Resistors shown in the upper two lines of circuitry on the  
diagram are ¼ watt unless otherwise specified. Resistors shown  
in the lower line of circuitry are ½ watt unless otherwise  
specified.  
A.C. Voltage Measurements:  
The numbers within the symbols  
on the circuit diagram  
denote the A.C. voltage at that point with the following test  
conditions:  
Voltages measured at points indicated with respect to  
chassis, unless otherwise specified.  
1.  
Line voltage 120v. 60 Hz (cps).  
1,000 Hz signal applied to input, in “MIC” position, at  
10 millivolts.  
2.  
3.  
Measured with an A.C. VTVM of 1.0 megohms or  
greater input impedance.  
4.  
5.  
6.  
7.  
Noninductive load of 8 ohms, 200 watts connected to  
speaker output jack for Q31 through Q38.  
Echo input and output jacks to be open; echo gain  
control set to maximum.  
The following ground symbols denote:  
Chassis  
Ground  
All antifeedback switches set to “OUT” position.  
8. Reverb intensity set to minimum.  
9. All tone controls set to 12 o’clock position.  
10. All volume controls set to maximum.  
11. Master reverb switch set to “OUT” position except as  
noted.  
Preamplifier  
Ground  
Reverb  
12. Individual channel reverb switches set to “OUT” pos-  
ition except where noted.  
Driver Ground  
20  
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VA300-C CIRCUIT DIAGRAM  
ISSUE 6  
Figure 18  
21  
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