e 602-II
FEATURES
Rugged, lightweight aluminium body for
stable positioning on long microphone
boom arms
Lightweight high-performance voice coil
construction
Fast transient response
Low frequency extension
Ideal for direct use on the most proble-
matic bass signal sources
Frequency-independent directivity pro-
vides isolation from other on-stage signals
Hum compensating coil
Integral stand mount
ARCHITECT'S
SPECIFICATIONS
The microphone shall be a dynamic cardioid
designed for use with low frequency ins-
truments. It shall have a rugged aluminium
body with an integral stand mount and shall
be fitted with a hum compensating coil.
The frequency response shall be
20 Hz –16,000 Hz and the sensitivity (free
field, no load) shall be 0.25 mV/Pa at 1 kHz
and 0.9 mV/Pa at 50 Hz. Nominal impe-
dance shall be 350 O, with a min. termina-
ting impedance of 1 kO.
The microphone shall provide a 3-pin XLR
connector. Dimensions shall be 60 x 153 mm
(2.36" x 6.02"). Weight shall be 318 grams
(11.22 oz). The microphone shall be the
Sennheiser e 602-II.
Cardioid microphone
for low frequency instruments
e 602 II
The
is a cardioid instru-
ment microphone especially suitable
for use with bass drums, bass guitar
cabs, tubas and other low frequency
instruments.
TECHNICAL DATA
Transducer principle ...............................................dynamic
Pick-up pattern ........................................................cardioid
Frequency response ...............................................20 – 16,000 Hz
Sensitivity (free field, no load) ............................ 0.25 mV/Pa (at 1 kHz) /
Nominal impedance ................................................350 Ohm
Min. terminating impedance ................................1000 Ohm
Connector ..................................................................XLR-3
Dimensions ...............................................................Ø 60 x 153 mm
Weight .......................................................................318 g
DeLIVeRy INCLuDeS
1 e 602-II
1 Pouch
Instructions for use
0.9 mV/Pa (at 50 Hz)