Bop 40w high voltage (linear), Bop high voltage model table – Atec Kepco-BOP-1 Series User Manual
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KEPCO, INC. • 131-38 Sanford Avenue • Flushing, NY 11355 USA • Tel: (718) 461-7000 • Fax: (718) 767-1102
Email: [email protected] • www.kepcopower.com
The Kepco Model BOP 500M and BOP 1000M
are high voltage power sources, up to ±500V or
±1000V, respectively.
For full specs, visit our Web site at
www.kepcopower.com/bophv.htm.
BOP 200W AND 400W (Linear)
BOP 200W AND 400W FEATURES
• Source 100% and sink 50% of the output power rating.
• Separate control circuits for voltage and current
with automatic crossover between main channel
and limit channel.
• Controls and flag signals accessible through a
50-terminal port at the rear.
• Zeroable preamplifier available for scaling and
summing external signals.
• Optional digital control via GPIB or RS 232. Add suffix -4886.
• Parallel and Series connection of identical models.
• Mounting in standard 19" racks
RA 37: 3/4 rack size
Mounting "ears" supplied: full rack size
APPLICATIONS FOR KEPCO’S BOP 200W AND 400W
Automotive
Battery and Motor Simulation and Testing
Wafer Deposition and Electroplating
Magnet Applications
Beam Steering, Medical Imaging, etc.
Solar Panel Research and Testing
For full specs, visit our Web site at www.kepcopower.com/bop.htm.
Their output is capable of both sustained d-c and the
replication of arbitrary a-c waveforms. Voltage and
current outputs can be controlled smoothly and
linearly through the entire rated plus and minus
ranges, passing smoothly through
zero with no polarity switching.
The BOP 200W and 400W are high-speed operational
amplifiers with full 4-quadrant, bipolar operation.
BOP 40W HIGH VOLTAGE (Linear)
These combine the capabilities of fast programmable power supplies with a Class A
output stage, which can respond bi-directionally from zero. They can be operated in
either a “voltage stabilizing” or “current stabilizing” mode. To realize the full high
speed potential of the BOP HV, the load characteristics should be mainly resistive.
Load capacitance and inductance up to 0.01µF and 0.5mH can
be tolerated without performance deterioration.
CLOSE LOOP GAIN
VOLTAGE
CURRENT
MODEL
(3)
CHANNEL
CHANNEL
OUTPUT IMPEDANCE
d-c OUTPUT RANGE
G V
G I
VOLTAGE MODE
CURRENT MODE
Eo max.
Io max.
(V/V)
(mA/V)
SERIES R
SERIES L
(1)
SHUNT R
SHUNT C
(2)
BOP 500M
±500V
±80mA
50
8.0
0.05Ω
5mH
100MΩ
0.3μF
BOP 1000M
±1000V
±40mA
100
4.0
0.2Ω
50mH
400MΩ
0.4μF
BOP HIGH VOLTAGE MODEL TABLE
(1) For determining dynamic impedance in voltage mode.
(2) For determining dynamic impedance in current mode.
(3) To specify digital display, substitute the suffix “DM” for “M.”
(1) Optional digital control va GPIB or RS232. Add suffix -4886.
(2) For determining dynamic impedance in voltage mode.
(3) For determining dynamic impedance in current mode. (4) Same size as 400W models.
(5) To specify digital display, substitute the suffix letter “D” for the suffix letter “M.”
200 WATT
BOP 20-10M
0 to ±20
0 to ±10
2.0
1.0
0.04
40
20
0.05
BOP 36-6M
0 to ±36
0 to ±6
3.6
0.6
0.12
20
36
0.03
BOP 50-4M
0 to ±50
0 to ±4
5.0
0.4
0.25
50
50
0.02
BOP 100-2M
0 to ±100
0 to ±2
10.0
0.2
1.0
60
100
0.03
BOP 200-1M
(4)
0 to ±200
0 to ±1
20.0
0.1
4.0
1200
200
0.03
400 WATT
BOP 20-20M
0 to ±20
0 to ±20
2.0
2.0
0.02
10
20
0.5
BOP 36-12M
0 to ±36
0 to ±12
3.6
1.2
0.06
50
36
0.4
BOP 50-8M
0 to ±50
0 to ±8
5.0
0.8
0.125
100
50
0.15
BOP 72-6M
0 to ±72
0 to ±6
7.2
0.6
0.24
200
72
0.1
BOP 100-4M
0 to ±100
0 to ±4
10.0
0.4
0.5
200
100
0.1
BOP 200W AND 400W MODEL TABLE
d-c OUTPUT RANGE
CLOSED LOOP GAIN
VOLTAGE
CHANNEL
G V (V/V)
VOLTAGE
V d-c
CURRENT
A d-c
MODEL
(1) (5)
CURRENT
CHANNEL
G I (A/V)
VOLTAGE MODE
SERIES R
mΩ
SERIES L
µH
(2)
SHUNT R
KΩ
SHUNT C
µF
(3)
CURRENT MODE
OUTPUT IMPEDANCE
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