Lab.gruppen fp 10000q 仕様ガイド
Item no. CDTD_FP10000Q_V4
L a b . g r u p p e n a b • S w e d e n
i n t e r n a t i o n a L c o n t a c t • i n f o @ L a b g r u p p e n . c o m | u S c o n t a c t • i n f o @ t c u S . c o m
w w w . l a b g r u p p e n . c o m
VHF
TEM
NOMAD
LINK
BRIDGE C+D
SIG -20 -15 -10 -4 VPL CPL
SIG -20 -15 -10 -4 VPL CPL
BRIDGE A+B
MUTE
MUTE
SIG -20 -15 -10 -4 VPL CPL
SIG -20 -15 -10 -4 VPL CPL
HI-IMP
HI-IMP
HI-IMP
HI-IMP
CLIP
CLIP
CLIP
CLIP
VHF
TEM
VHF
TEM
VHF
TEM
PWR
PAL
FP10000Q
-10dB
-inf
0
-10dB
-inf
0
-10dB
-inf
0
-10dB
-inf
0
channel
A
B
channel
C
channel
D
channel
FP SERIES
R
POW
POW
The following tables contain information on measured current consumption as well as calculated heat dissipation during normal operation
(1/8 rated power); and during extreme heavy duty operation (1/4 rated power).
(1/8 rated power); and during extreme heavy duty operation (1/4 rated power).
Current Draw and Thermal Dissipation
FP+ Series: Dedicated Touring Amplifiers
FP 10000Q
FP 10000Q
Level
Load
Rated Power
Line Current *2)
Watt *1)
Thermal Dissipation
115 VAC
230 VAC
In
Out
Dissipated
BTU/hr
kCal/hr
Standby, with remote power off via NomadLink
0
0
0
0
0
Powered on, idling
139
0
139
475
120
Amp (I)
Watt
Pink noise (1/8
rated power)
16
Ω / Ch.
660 x 4
10.7
5.6
732
330
402
1371
345
32
Ω / Bridged
1320 x 2
8
Ω / Ch.
1300 x 4
16.9
8.8
1224
650
574
1958
493
16
Ω / Bridged
2600 x 2
4
Ω / Ch.
2100 x 4
25.9
13.5
1914
1050
864
2949
743
8
Ω / Bridged
4200 x 2
2
Ω / Ch.
2500 x 4
32.2
16.8
2414
1250
1164
3973
1001
4
Ω / Bridged
5000 x 2
Pink noise (1/4
rated power)
*3)
16
Ω / Ch.
660 x 4
13.6
7.1
1143
880
263
897
226
32
Ω / Bridged
1320 x 2
8
Ω / Ch.
1300 x 4
22.4
11.7
2096
1733
363
1238
312
16
Ω / Bridged
2600 x 2
4
Ω / Ch.
2100 x 4
39.4
20.6
3589
2800
789
2691
678
8
Ω / Bridged
4200 x 2
2
Ω / Ch.
2500 x 4
52.9
27.6
4159
3333
825
2817
710
4
Ω / Bridged
5000 x 2
Mains connector, 230 V CE version
16 A, CEE7
Mains connector, 115 V ETL version
30 A, Nema L5-30P Twist lock
*1) The amplifier’s PSU operates as a non-resistive load, so the calculation “Volts x Amps = Watts” would not be correct. Instead, measured and
specified here is what is known as the “Active Power” of the amplifier providing useful, real-world values of power consumption and heat dissipation.
specified here is what is known as the “Active Power” of the amplifier providing useful, real-world values of power consumption and heat dissipation.
*2) Current draw figures measured at 230 V. 115 V figures are 230 V figures multiplied by two.
*3) Figures measured at maximum power before amplifier protection and limiter features are engaged. Typically this is between 1/4 and 1/3 of rated
power. Note that the max. power condition is very extreme and will not occur during normal operation. Also note that the mains breaker will not be
tripped even if operation is in excess of max. ratings.
power. Note that the max. power condition is very extreme and will not occur during normal operation. Also note that the mains breaker will not be
tripped even if operation is in excess of max. ratings.