Superlux D109 User Manual
User guide, D109, Description
HM38S
6M XLR3F~1/4" phone plug Instrument signal cable.
Mic pouch soft leather.
Mic clip.
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The D109 is a high impedance, cardioid dynamic microphone for using a
microphone with guitar amp or other high impedance input devices.
Ordinary low impedance microphone will not work with such devices. The
mesh grill is a effective pop screen to filter wind noise and speaking pop
when using the microphone close to the mouth. Cardioid pattern provide
adequate gain before feedback while the guitar amplifier is at close distance
and at un-sensitive angle.
The D109 comes with a 6-meter, XLR3F to 1/4" phone plug cable and mic
clip.
Description
! Wide frequency response to clean instrument pick up.
! Symmetrical cardioids pattern. Minimized feedback.
! High impedance.
! Neodymium magnet with double convex diaphragm, high signal to noise
ratio.
! Rolling ball positioning ON/OFF switch.
! Die-cast microphone shaft, strengthen mesh grill.
Features
Supplied accessories
XLR3F~1/4" Phone plug
Instru ment signal cable
HM38S
Microphone clip
Mic pouch soft leather
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109
User Guide
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© 2007, SUPERLUX I
LB1000D10901EN (Rev. 1)
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Specifications
Dynamic microphone
Type
Polar pattern
80 to 12,500 Hz (Figure 2)
Frequency response
Sensitivity
(at 1,000 Hz Open Circuit Voltage)
20kΩ
Rated impedance
100kΩ
Minimum load impedance
Unidirectional (Super Cardioid), rotationally symmetrical about
microphone axis, uniform with frequency. (Figure 1)
Max. SPL
(1 kΩ load)
130dB SPL (THD≦1% 1kHz)
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The D109 operates between -10℃ to +50℃(14℉ to 122℉) with
relative humidity between 0 to 95%.
Environmental conditions
Net weight
Dimensions
Black paint
Finish
Hi-Z Dynamic Microphone
340 grams (12.00 oz)
-38dBV/Pa (12.6mV/Pa) 3dB , 1Pa=94dB SPL
±
Integral 3 pin male XLR type
Connector
Φ48mm x 173mm (1.90in. x 6.80in.), Figure 3
The D109 including the product and packages follow the instruction of
EU 2002/95/EC and comply to RoHS.
RoHS
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Dimensions (Figure3)
TY PICAL FR EQUENCY RESPONSE (Fi gur e2 )
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dB
10
-10
-20
20
50
100
200
500
1000
2000
5000
10000
20000 Hz
0
TYPICAL POLAR PATTERN (Figure 1)
2000 Hz
4000 Hz
8000 Hz
250 Hz
500 Hz
1000 Hz