Model M367 User Guide
SIX CHANNEL MICROPHONE MIXER
! IMPORTANT SAFETY INSTRUCTIONS !
1.
2.
3.
4.
5.
6.
7.
READ these instructions.
KEEP these instructions.
HEED all warnings.
FOLLOW all instructions.
DO NOT use this apparatus near water.
CLEAN ONLY with dry cloth.
DO NOT block any ventilation openings. Install in accordance with the manu-
facturer's instructions.
DO NOT install near any heat sources such as radiators, heat registers, stoves,
or other apparatus (including amplifiers) that produce heat.
DO NOT defeat the safety purpose of the polarized or grounding-type plug. A
polarized plug has two blades with one wider than the other. A grounding type
plug has two blades and a third grounding prong. The wider blade or the third
prong are provided for your safety. If the provided plug does not fit into your out-
let, consult an electrician for replacement of the obsolete outlet.
USE only with a cart, stand, tripod, bracket, or table
specified by the manufacturer, or sold with the
apparatus. When a cart is used, use caution when
moving the cart/apparatus combination to avoid
injury from tip-over.
12.
13. UNPLUG this apparatus during lightning storms or when unused for long periods of
time.
14. REFER all servicing to qualified service personnel. Servicing is required when the
apparatus has been damaged in any way, such as power-supply cord or plug is dam-
aged, liquid has been spilled or objects have fallen into the apparatus, the apparatus
has been exposed to rain or moisture, does not operate normally, or has been
dropped.
8.
9.
15. DO NOT expose the apparatus to dripping and splashing. DO NOT put objects filled
with liquids, such as vases, on the apparatus.
16. The MAINS plug or an appliance coupler shall remain readily operable.
17. The airborne noise of the apparatus does not exceed 70dB (A).
18. Apparatus with CLASS I construction shall be connected to a MAINS socket outlet
with a protective earthing connection.
10. PROTECT the power cord from being walked on or pinched, particularly at plugs,
convenience receptacles, and the point where they exit from the apparatus.
11. ONLY USE attachments/accessories specified by the manufacturer.
19. To reduce the risk of fire or electric shock, do not expose this apparatus to rain or
moisture.
20. Do not attempt to modify this product. Doing so could result in personal injury
and/or product failure.
•
•
Headphone monitoring 3.5 mm, (1/4 in.)
Output peak limiter with switchable threshold and bi-colored
LED indicator
Peak indicator LED, and switchable low-cut filters on each input
1/4 in. return monitor input
AC power or (2) 9V battery operation
DESCRIPTION
The Shure M367 is a portable, six
battery-powered microphone and line level mixer/preamplifier. Its
transformer isolated design, low-noise performance, and compact
-input, two-output (mono),
•
-
and rugged construction make the M367 an ideal choice for studio
and mobile broadcast, electronic news gathering (ENG), and
electronic field production (EFP) applications.
•
ADDITIONAL FEATURES
This versatile mixer can also be used for the following:
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•
48 Vdc or 12 V phantom power for condenser microphones
1 kHz tone oscillator
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Digital transmission links
Digital video/audio recording media (ISDN, hard disk
recording, and DAT)
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•
Mutes all input channels when activated
Tone level control is on the master
•
Sound reinforcement
The M367 comes with rubber feet, detachable power cord, and
spare power line fuse. It can be rack mounted using the optional
Model A367R rack mount kit.
•
•
Wide–range input gain controls handle hot signal levels without
attenuators
Customized operation via internal DIP switches, trim pots, and
optional alternate wiring
Battery check switch and low battery warning indication
Power-on LED
Input expansion via mix bus jack to link M367s or other mixers
Rugged all metal chassis with protective end caps
Detachable AC power cord
FEATURES
•
•
•
•
•
•
•
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Six selectable mic/line inputs
Selectable mic/line output and dedicated line output
Transformer-balanced inputs and outputs for superior rejection
of RFI and electromagnetic hum
•
Professional mechanical VU meter–LED backlighting for high
reliability, no lamp replacement
©2008 Shure Incorporated
27C8511 (Rev. 5)
Printed in U.S.A.
REAR PANEL CONNECTORS AND CONTROLS
1
2
3
4
LEVEL
MIC LINE PHANTOM MIC LINE MIC LINE MIC LINE MIC LINE MIC LINE MIC LINE
OFF ON
100-120 VAC 50/60 Hz 100 mA
M267 M367
LINE
MONITOR
IN
MIX
BUS
6
5
4
3
2
1
OUTPUT
INPUT
SPARE
8
9
7
6
5
10
REAR PANEL CONNECTORS AND CONTROLS
FIGURE 2
1. Mic/Line Level Output Switch: Sets output to microphone or
line level.
2. Phantom Power Switch: Adds 12-volt phantom power to all
inputs set to MIC. Use DIP switch 7 to increase voltage to 48
volts (see DIP Switches).
3. Mic/Line Level Input Switches 1-6: Sets input to microphone
or line level. Phantom power is disabled for inputs set to LINE.
4. M267/M367 Mix Bus Level Switch: Set to M267 when con-
necting to a SHURE M267, FP42, FP51, M67, or SE30. Use
the M367 setting with another M367 or SHURE FP32A.
BALANCED
TO M367 #1
TO M367
TO M367 #2
UNBALANCED
N.C.
TO M267
MIX BUS CONNECTIONS
FIGURE 3
IMPORTANT
6. Channel Inputs: These female XLR inputs are transformer-
balanced to provide superior rejection of hum, RFI, and other
interference.
7. Monitor In Jack: Accepts mono line-level signals (tip = signal,
sleeve = ground) for "tape return" or a communications chan-
nel input. See Pull/Monitor switch description.
Unless required, leave the mix bus LEVEL switch in the
M367 position. The M367 setting may increase mixer out-
put noise up to 30 dB, depending on the MASTER output
setting.
5. Mix Bus Jack: Allows you to connect the M367 to another
mixer. The mix bus connection is "two-way" and pre-master.
When two M367 mixers are connected, all 12 inputs appear at
both mixers' outputs. The MASTER gain control of either
M367 can be adjusted without affecting the other mixer’s
output.
You can also modify the MONITOR IN jack to accept a stereo
input and provide a stereo sum monitor signal (see Internal
Modificable Functions).
8. Mixer Output: These male XLR outputs are transformer-balanced.
The Line output is preset to line level, but can be modified to a true
600Ω
output impedance or changed to microphone level (see Inter-
nal Modifiable Functions).
9. Power Connector: See AC Operation.
10. Time Delay Fuses: The slide-out compartment contains two
power line fuses. The outer (toward you) is a spare.
M367: 0.125A, 250V fuse
NOTE
The output level of each M367 mixer drops by 6 dB when connected
through the MIX BUS, increase the Master Gain to compensate.
For a balanced mix bus connection between two M367s, use a
mix bus cable with two 1/4 in. stereo (tip, ring, sleeve) plugs.
When connecting other types of Shure mixers, construct a mix
bus cable with a 1/4 in. mono phone plug (tip = signal, sleeve =
ground) and the appropriate connector for the other mixer's mix
bus jack (see Figure 3).
M367E: 0.063A, 250V fuse
WARNING
For continued protection against fire, replace with the same
type and rating of fuse.
3
SETTING LEVELS
AC OPERATION
1. Set the MASTER gain knob to the full off position.
2. Activate the 1 khz tone oscillator by setting the 1 KHZ TONE
switch to ON. Adjust the MASTER gain until the VU meter
needle indicates "0". Adjust the input levels on the equipment
connected to the M367 outputs accordingly. Deactivate the
tone by setting the 1 KHZ TONE switch to OFF.
Use the supplied power adapter to connect the M367 to a power
outlet.
M367: 100-120 VAC, 50/60 Hz
M367E: 220-240 VAC, 50/60 Hz
The operating voltage can be switched internally (see Internal
Modifiable Functions).
3. Adjust the Input gain controls based on the incoming signal
levels. The input PEAK LEDs should flicker red only on loud
input peaks.
4. Observe the output on the VU meter and adjust the MASTER
gain to obtain the desired levels. try to keep the average levels
around "0 VU". The PEAK LED adjacent to the VU meter
should illuminate only on loud output peaks.
NOTE
Appliance inlet is the main disconnect device (to power off the
M367, you must unplug the power supply).
BATTERY OPERATION
Open the battery compartment by grasping the sides of the
compartment, squeezing to release the locks, and pulling the com-
partment outward. Insert two 9-volt batteries.
DIP SWITCHES
During battery operation, use the BATT CHECK button. Press
and hold to show battery level on the VU meter. Press once to illu-
minate the VU switch for 10 seconds, or set DIP switch 6 for con-
tinuous illumination (see DIP Switches).
1 2 3 4 5 6 7
S701
BATTERY LIFE
Access the DIP switches by removing the battery compartment
and top cover. Use the following table to set the switches
(Bold = factory setting.)
With two fresh 9-volt alkaline batteries, the M367 operates for
about eight hours. Some mixer features decrease battery life, as il-
lustrated in the following table.
NOTE
Down
Momentary use of headphones or meter illumination will not
appreciably affect battery life.
Function
Up
1
2
Meter 0 VU
0 VU = +4 dBm
0 VU = +8 dBm
Mixer Operation
Battery
Current
(mA)
Battery
Life
See Figure 4
Limiter
(hours)*
Threshold
No Signal
40
45
55
70
50
75
9
8
3
4
With +4 dBm continuous output
With six mics at 12 V phantom power
With six mics at 48 V phantom power
With output to headphones
Program to
Monitor
Off
On (adds attenu-
ated program signal
in headphones with
Pull/Monitor switch
on)
6.5
5
7
With meter illumination continuously on
4.5
5
6
7
Monitor In
Gain
Normal
High
*until Power LED begins to flash, allowing approximately 30 minutes
to replace batteries.
VU Lamp (Batt
Check button)
Timed (Turns off
Toggled (press on,
press off)
after 10 seconds)
CONNECTING M367 OUTPUTS TO TELEPHONE LINES
Use the XLR outputs at line level to drive dc-biased, "dialed up"
telephone lines. A slight increase in distortion may occur. Use the
M367 limiter with the limiter threshold set to +4 dBm. Modify the
M367 output impedance to 600 Ω for proper fidelity (see Internal
Modifiable Functions). When connecting the M367 to a telephone
line, you must use an FCC-Registered interface adapter between
the mixer and telephone line.
Phantom
Power
12 Vdc
48 Vdc
Limiter Threshold
= +16 dBm
= +8 dBm
= +4 dBm
= 0 dBm
2
3
LIMITER THRESHOLD SETTINGS
FIGURE 4
4
SPECIFICATIONS
Frequency Response
Polarity
20 to 20,000 Hz ± 2.0 dB (channel controls centered)
Total Harmonic Distortion
0.25% THD at +4 dBm output, 55 to 20,000 Hz
Voltage Gain
Mic/Line In to Mic/Line Out
Non-Inverting
Non-Inverting
Inverting
Mic/Line In to Phones
Mic/Line In to Mix Bus (tip)
Monitor to Phones
Output
Non-Inverting
Inverting
MixBus
(M367)
Mix Bus to Mic/Line Out
Input
Line
Mic
Phones
Mix
Bus
Overload and Shorting
(M267)
Shorted outputs, even for prolonged periods, cause no damage.
Microphone inputs of up to 3 Vrms cause no damage. Line and
monitor can withstand signals of up to 30 Vrms.
Input Peak Indicators
6 dB below clipping level
Output Peak Indicator
Lights red at 6 dB below clipping level
Output Clipping Level
≤ +18 dBm at line output into 600 Ω
Low-Cut Filters
Low-Z Mic
87 dB
40 dB
103 dB
66 dB
27 dB
(150
Ω)
Line
37 dB
--
-11 dB
--
53 dB
12 dB
26 dB
15 dB
-25 dB
Monitor
--
--
--
--
Mix Bus
(M367)
10 dB
-38 dB
MixBus
(M267)
50 dB
2 dB
66 dB
--
--
7 dB down at 150 Hz; 6 dB/octave slope (3 dB down at 260 Hz)
Tone Oscillator
1 kHz ± 20%
Limiter
Inputs
Threshold: Switchable: 0, +4, +8, +16 dBm
Attack Time: 1 ms ± 0.5 ms
IMPEDANCE
Input
Designed for
Use With
Release Time Constant: 100 ms ± 30 ms
Input
Actual
Clipping
Level
(Internal)
Indicator: Green when limiting by 1 dB or more
Phantom Power
Mic
Line
19 to 600 Ω
≤10 kΩ
1 kΩ
-10 dBV
+36 dBV
0 dBV
12 V Phantom: 12 V through 340 Ω
50 kΩ
48 V Phantom : 48 V through 3.4 kΩ
AC Power
Monitor
≤1 kΩ
13 kΩ
M367: 100–120 Vac, 50/60 Hz, 100 mA
M367E: 220–240 Vac, 50/60 Hz, 50 mA; no-signal current drain
25 mA
Mix Bus
(M367)
930 Ω bal.;
930 Ω bal.;
+23 dBV
1860 Ω unbal.
1860 Ω unbal.
DC Power
Mix Bus
(M267)
3.5 kΩ
3.5 kΩ
-17 dBV
18 Vdc nominal at 40 mA typical no-signal, 45 mA typical at +4
dBm output; 13.5 Vdc minimum
Batteries
Outputs
Two 9 V alkaline batteries
Battery Life
IMPEDANCE
Output
Up to 8 hours* at +4 dBm output in continuous use.
*(see Battery Operation)
Output
Designed for
Use With
Actual
(Internal)
Clipping
Level
Temperature Range
Mic
Line
Low-Z inputs
600 Ω
1 Ω
-31 dBV
+18 dBm
+11 dBV
+11 dBV
Operating: -18° to 57° C (0° to 135° F)
Storage: -29° to 74°C (-20° to 165° F)
Overall Dimensions (H x W x D)
71.9 mm x 308 mm x 233 mm (2 13/16 in. x 12
5/32 in. x 9 5/32 in.) including feet.
Weight (without batteries)
150 Ω
300 Ω
Phones
8 to 200 Ω
Mix Bus
(M367)
930 Ω bal.;
930 Ω bal.;
1860 Ω unbal.
1860 Ω unbal.
3 kg (6.6 lb)
Mix Bus
(M267)
3.5 kΩ
3.5 kΩ
-28 dBV
Measurement conditions (unless otherwise specified): operating
voltage 120 Vac, 60 Hz (18 ±1 Vdc for dc test); operating tempera-
ture 22°C (72°F); input signal 1 kHz; internal DIP switches 1–7 open;
Power switch on; Mic/Line switches to Line; low-cut switches to flat;
Limiter out; Phantom power off; Mix Bus to M367; channel 1 gain full
CW; channel 2 through 6 full CCW; Master full CW; Phones level full
Equivalent Input Noise
≤ –127 dBV with 150 Ω source, 400 to 20,000 Hz
Output Noise
Master level full CCW: –100 dBV, 400 to 20,000 Hz
Master level full CW: –80 dBV, 400 to 20,000 Hz
Hum and Noise
CCW; Line output terminations 600
minations 150 (pins 2 and 3); Phones (1/4"–ring) 300
Phones (1/4"–tip) 300 to ground; Phones (3.5 mm) unloaded; Mix
Bus 930 (M367 position) or 3.5 k (M267 position), not connected
unless specified; 1 kHz input signal.
Ω
(pins 2 and 3); Mic output ter-
Ω
Ω
to ground;
Ω
Equivalent Input: ≤125 dBV, 20 to 20,000 Hz
Output: –95 dBV (Master CCW), –75 dBV; (Master CW), 20 to
20,000 Hz
Ω
Ω
Common Mode Rejection Ratio
65 dB at 100 Hz, –20 dBV input
5
REPLACEMENT PARTS
GENERAL INFORMATION
Foot Kit (4 in kit)........................................................... 90S8100
M367 Fuse, 0.125 A, 250 V ........................................... 80E380
M367E Fuse, 0.063 A, 250 V.........................................80G380
Knob
Master .......................................................................... 95A8238
Channel Gain, Phones................................................. 95B8238
Line (Power) Cord
Changes or modifications not expressly approved by Shure, Inc.
could void your authority to operate this equipment.
This equipment has been tested and found to comply with the limits
for a Class B digital device pursuant to Part 15 of the FCC Rules
and as set out in the Radio Interference Regulations of the Cana-
dian Department of Communications. These limits are designed to
provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses, and can
radiate radio frequency energy and, if not installed and used in ac-
cordance with the instructions, may cause harmful interference to
radio communications. However, there is no guarantee that inter-
ference will not occur in a particular installation. If this equipment
causes harmful interference to radio or television reception, deter-
mined by turning the equipment off and on, try to correct the inter-
ference by one or more of the following measures:
M367............................................................................ 95A8389
M367E.......................................................................... 95B8389
OPTIONAL ACCESSORIES
Rack Mount Kit.................................................................A367R
STATEMENT OF CONFORMITY
1. Reorient or relocate the receiving antenna.
Conforms to European Union directives, eligible to bear CE
marking; VDE GS-Certified to EN60065; meets European Union
EMC Immunity Requirements (EN 50 082-1, 1992): RF radiated
(IEC 801-3): meets Criterion A, ESD: meets Criterion B, EFT
(IEC 801-4): meets Criterion B.
2. Increase the separation between the equipment and receiver.
3. Connect the equipment into an outlet on a circuit different from
that to which the receiver is connected.
4. Consult the dealer or an experienced radio/TV technician
for help.
6
INTERNAL ADJUSTMENTS
4. Adjust the 1 kHz tone oscillator level with the Master gain con-
trol until the ac voltmeter reading is at the level desired
5. With the M367 top cover removed, adjust the VU Level Cali-
bration trim pot R684 with a screwdriver until the VU Meter
reads 0.
NOTE
Only qualified service technicians should perform these
modifications.
6. For 0 VU settings between +4 and +8 dBm, set internal DIP
switch S701 position 1 "down", and perform steps 1 through 5.
These internal adjustments require only removal of the top
cover:
1. Remove battery compartment.
2. Remove four screws securing two plastic end caps and one
ground-bonding screw on the side opposite the battery com-
part ment.
3. Slowly slide cover up and off chassis.
VCA DISTORTION TRIMPOT (R607)
VU METER
VCA
CALIBRATION
DISTORTION
DO NOT ADJUST! This potentiometer is precisely calibrated on
each mixer for minimum distortion.
TRIMPOT
TRIMPOT
R684
R607
VU METER ADJUSTMENT (R684)
This trimpot adjusts the VU meter to indicate 0 VU at a preset
output level. The factory setting is +4 dBm. The user adjustment
range is -10 dBV to +4 dBm (-6 dBV to +8 dBm with DIP switch 1
down).
To set the VU meter to a value other than the factory setting
(0 VU = +4 dBm), proceed as follows:
1. Connect a 600 Ω load to an XLR output set for Line.
2. Connect an ac voltmeter with 1 MΩ or greater input
impedance (Fluke 77 or equivalent) in parallel with the load.
3. Set the 1 kHz tone oscillator switch to the ON position.
(ACCESSED
THROUGH
HOLE IN
UPPER FRONT
PC BOARD)
DIP SWITCH
S701
INTERNAL ADJUSTMENTS
FIGURE 5
7
INTERNAL MODIFIABLE FUNCTIONS
Pad
X421
X431
X441
Channel
Pad
X451
X521
X531
Channel
NOTE
1
2
3
4
5
6
Only qualified service technicians should perform these
modifications.
Perform all modifications through solder points accessible on
the main PC board.
2. Locate the following empty pads:
Find all pads near ribbon cable assemblies W811, W812 and
W813.
3. Solder a new capacitor through the holes of the empty pads
for each channel to be modified.
DISASSEMBLING THE M367
1. Remove the mixer top cover as previously described.
2. Carefully remove three multi-pin cable assembly connectors
from upper front PC board (nearest front panel). Remove the
three Phillips head screws securing the PC board. Remove up
per front PC board.
3. Carefully remove four multi-pin cable assembly connectors
from upper rear PC board (nearest rear panel). Remove the
three Phillips head screws securing the PC board. Remove
upper rear PC board.
4. Perform modification (refer to appropriate following proce-
dure). Note that all modifications can be performed without
removing the main PC board.
5. Reassemble M367 by performing above steps in reverse,
assembling the Phillips screws in the order indicated on the
upper front and upper rear PC boards.
To increase corner frequency:
Note: Low-cut corner frequencies much higher than the factory
preset of 260 Hz may excessively attenuate desired low- to
mid-frequency program material.
1. Locate the following capacitors near empty pads:
Capacitor
C425
Channel
Channel
Pad
X421
X431
X441
Capacitor
C455
Pad
X451
X521
X531
1
2
3
4
5
6
C435
C525
C445
C535
2. Remove the indicated capacitor for each channel to be
modified.
3. Calculate new capacitor value for higher high-cut corner fre
quency. Use the following formula:
C in μF= (85/frequency)
CHANGING LINE LEVEL OUTPUT IMPEDANCE TO 600 Ω
Locate resistor R621 (near IC U602 pin 8) on the main PC board
and remove it. Locate empty pads X621 (near resistor R621).
Solder a 430 Ω, 1/2 W resistor through the holes at X621.
Example: for 400 Hz corner frequency,
C = (85/400) = 0.21
CHANGING UNSWITCHED LINE OUTPUT TO MIC LEVEL
For 400 Hz corner frequency, use a 0.22 μF capacitor.
Locate resistor R632 (near output transformer T601) and
remove. Locate empty pads X632 (near transformer T601). Solder
a jumper wire through the holes of X632.
4. Solder a new capacitor through the holes of the empty pads
for each channel to be modified.
SLOWING OUTPUT METER FROM "True VU" BALLISTICS
CHANGING MIXER AUDIO LEVELS IN HEADPHONES
(Pull/Monitor Switch Activated, DIP Switch S701 Position
4 Closed)
Locate empty pads X691 (at left of VU meter M1). Solder a 100
μF x 6.3 V electrolytic capacitor through the holes of X691. Ob-
serve capacitor polarity as marked on the PC board. The response
time is now 500 ms with no overshoot. To further slow the meter
response, use a larger capacitor value.
Locate empty pads X649 (near Phones potentiometer R648).
Solder a 68 kΩ, 1/4 W resistor through the holes at X649 to hear
program audio 12 dB down from standard headphones level with
Pull/ Monitor switch on (pulled out). Solder a 24 kΩ, 1/4 W resistor
through the holes at X649 to hear program audio 6 dB from
standard headphones level with Pull/Monitor switch on (pulled out).
CHANGING MIC LEVEL OUTPUT IMPEDANCE
Locate resistor R631 (near output transformer T601) and
remove it. Locate empty pads X631 (near T601). Solder desired
value 1/4 W resistor through the holes of X631. For example, use
a 150 Ω, 1/4 W resistor for 150 Ω output impedance.
CHANGING LOW-CUT FILTER CORNER FREQUENCY
(3 DB DOWN POINT)
To decrease corner frequency:
1. Calculate new capacitor value for lower low-cut corner
frequency. Use the following formula:
C in μF= (85/frequency) - 0.33
Example: for 200 Hz corner frequency,
85/200 9 0.43
0.43 - 0.33 = 0.1
For 200 Hz corner frequency, use a 0.1 μF capacitor.
NOTE:
Capacitor must be non-polarized; ceramic or film type;
16V rating or higher.
8
ADAPTING LINE OUT TO DUAL BANANA JACK
CHANGING MONITOR IN HIGH GAIN (DIP Switch S701
Position 5 Down)
Add a dual banana jack, balanced, line-level output capability by
purchasing a commercial unit (Sescom XLR F-3BP or equivalent),
or obtaining a female XLR connector (Radio Shack 274-011 or
equivalent), a dual banana jack (ITT 2269 or equivalent), a small
utility box, and a short length of high-quality shielded output cable
and constructing the adapter shown in Figure 6.
Locate resistor R647 (near Phones potentiometer R648) and re-
move it. Locate empty pads X647 (near R647). Solder a 330
resistor in the holes of X647 for 6 dB gain boost with DIP switch S701
position 5 down (input impedance equals 6.5 k in this position).
Ω,1/4 W
Ω
CHANGING MONITOR IN JACK FROM MONO INPUT TO
STEREO SUM INPUT
Locate empty pads X645 (near Monitor In jack J863). Solder a
1 kΩ, 1%, 1/4 W resistor in the holes of X645. The Monitor In jack
will now accept a stereo input signal (tip left, ring right, sleeve
ground), and sum these signals to the monitor circuit.
1
2
NOTE
3
If using a true stereo feed to drive the M367 Monitor In and
another stereo device, the source impedance must be 20 Ω or
less to maintain at least 40 dB separation in the stereo device.
Use a stereo distribution amplifier or buffer to maintain optimum
stereo separation.
DUAL BANANA JACK OUTPUT
FIGURE 6
MASTER GAIN REMOTE CONTROL
Connect this adapter to the M367 Line output.
NOTE
This modification disables both the M367's monitor function and
its front-panel Master gain control.
CHANGING MONITOR IN TO AUX IN
NOTE:
1. Remove resistor R641 (near Monitor In jack J863).
2. Remove resistor R746 (near Master potentiometer R706).
3. Locate empty pad X702 (near Master potentiometer R706).
Solder one end of a 100 Ω, 1/4 W resistor in the hole of X702.
Solder an insulated wire to the other end of the 100 Ω resistor.
Locate empty pad X644 (near jack J863). Solder the other end
of the insulated wire to X644.
4. Locate empty pad X701 (next to empty pad X702). Solder an
insulated wire to X701. Locate empty pads X645 (near jack
J863). Solder the other end of the insulated wire to the empty
pad X645 nearest channel 6 input connector J856.
5. Construct a remote control potentiometer/cable assembly as
shown in Figure 7.
This modification disables the M367's monitor function.
Remove resistors R642 and R647 (near Phones potentiometer
R648).
Locate empty pads X601 (near output transformer T601) and
X643 (near Monitor In jack J683).
Solder a jumper wire from X643 to X601. The Monitor In jack is
now an unbalanced (tip positive, sleeve ground) Aux In jack, with
an input impedance of 11 kΩ and a maximum gain to Line Out
(loaded with 600 Ω) of 17 dB. The Aux In signal is only controlled
by the Master control.
To change Aux In gain, locate resistor R605 (near X601). Care
fully remove R605 and replace it with a surface-mount resistor
(0805 package) of the desired value. If replacing R605 with 15 kΩ,
maximum Aux In to Line Out gain equals 14 dB and input
impedance equals 16 kΩ; if replaced with 6.8 kΩ, maximum Aux In
to Line Out gain equals 20 dB and input impedance equals 7.8 kΩ.
TIP
RING
CW
SLEEVE
MASTER GAIN REMOTE CONTROL
FIGURE 7
Recommended parts are:
Potentiometer, 10-25 kΩ, linear taper (Radio Shack
271-1715)
1/4 in. Stereo Phone Plug (Switchcraft 280)
Ferrite Bead Rings (Ferronics 21-031J)
Capacitors, ceramic, 0.001 μF, 50 V
Cable, 2-conductor, shielded, 50 ft maximum (15 m)
Ferrite bead rings and capacitors should be as close to the
phone plug as possible.
6. Insert the phone plug in the Monitor In jack. The remote con-
trol potentiometer now controls M367 gain with a control taper
similar to that of the Master gain control.
9
CHANGING LIMITER RELEASE TIME TO ONE SECOND
6. Calculate resistor R6 value as follows:
Remove resistor R741 (about 15 mm behind ribbon cable
assembly W813).
1
R6 =
1
R3
1
R1
–
CHANGING LIMITER THRESHOLD PRESETS
1. Select the equivalent resistor values for the desired limiter
thresholds from the following table. Then fill in the following
work sheet with the resistor selections.
Select a 1/4 W, 1% resistor closest in value to R6 and solder it
to the holes of X734.
7. Calculate resistor R7 value as follows:
Limiter Threshold
Requiv
Limiter Threshold (
Requiv
1
(dBm into 600 Ω)
dBm into 600 Ω)
(kΩ)
(kΩ)
R7 =
1
R4
1
R1
1
R5
1
R6
–
–
–
0
1
2
3
4
5
6
7
8
9
18
21
25
30
35
41
47
54
62
71
10
11
12
13
14
15
16
17
18
81
Select a 1/4 W, 1% resistor closest in value to R7 and solder it
to the holes of X735. (See Changing Limiter Threshold Presets:
Samples Calculations later in the Appendix for an example of
limiter threshold preset component calculations.)
93
105
122
139
156
175
194
215
CHANGING LIMITER THRESHOLD PRESETS: SAMPLES
CALCULATIONS
For the following limiter thresholds:
DIP Switch S701
Limiter Threshold
R
equiv
Position
2
Position
3
dBm
–
–
up
up
high
12
105
R
equiv (above)
DIP Switch S701
Limiter Threshold
kΩ=R1
Position 2
Position 3
dBm
–
–
down
up
up
med. high
med. low
low
8
4
0
62 kΩ=R2
35 kΩ=R3
18 kΩ=R4
up
down
up
up
up
high
_____
_____
_____
_____
kΩ = R1
kΩ = R2
kΩ = R3
kΩ = R4
down
down
med. high
med. low
low
down
down
down
1. Obtain a 105 kΩ, 1/4 W, 1% resistor and solder it to the holes
down
of X732.
2. Remove resistors R721, R731, R732, R733, R734 and R735
(surrounding IC U704).
2. Obtain a 150 kΩ, 1/4 W, 1% resistor and solder it to the holes
of X733.
3. Locate empty pads X732, X733, X734 and X735 (surrounding
IC U704).
4. Select a 1/4 W, 1% resistor closest in value to R1 (from the
work sheet), and solder it to the holes of X732.
1
R
5 =
= 151.4 k:
1
1
105,000
62,000
Note: Use parallel or series combinations of resistors to match
the chosen values as closely as possible if 1% resistors are not
available.
3. Obtain a 52.3 kΩ, 1/4 W, 1% resistor and solder it to the holes
of X734.
5. Calculate resistor R5 value as follows:
1
1
R6 =
1
= 52.5 k:
1
105,000
35,000
R5 =
1
R2
1
R1
4. Obtain a 49.9 kΩ, 1/4 W, 1% resistor and solder it to the holes
–
of X735.
Select a 1/4 W, 1% resistor closest in value to R5 and solder it
to the holes of X733.
1
R
7 =
1
1
1
1
18,000
52,300
105,000
150,000
= 49.4 k:
10
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