Bop capacitive load - bandwidth correction – Atec Kepco-BOP-1 Series User Manual
Page 8
OPTIMIZE BOP 200W AND 400W
FOR DRIVING CAPACITIVE LOADS
TO 10 MILLI-FARADS
8
For digital meters, substitute the letter D for M when ordering - example: BOP 20-20DC.
For GPIB control of the BOP, add the suffix 4886 after the letter C in the model name -
example: BOP 20-20MC4886.
(1) All specifications listed are for capacitive load models in Voltage Mode.
(2) For BOP 20-20MC, DC: nonuniformities of the frequency response creates a larger 3-dB bandwidth
for the resistive load than for the standard BOP.
(3) Nonuniformities of the frequency response for the standard 10μF load create a larger 3-dB bandwidth
than for the resistive load.
(4) 10% - 90%, with nominal resistive load.
(5) Load between infinity and nominal resistive values.
As an option (C suffix), Kepco's 200 Watt (except
BOP 200-1M) and 400 Watt BOP models may be
optimized for driving capacitive loads.
These BOP units are designed to operate in a stable
manner in voltage or voltage limit mode for capacitive
loads up to 10mF. They are also stable when driving
any R-C parallel combination where load R is ≥
nominal value and C is ≤10mF. Load R (nominal value)
= nominal output Voltage/nominal output Current
(e.g., BOP 36-6MC, R = 36/6 = 6 Ohms). To prevent
current limit operation, the equivalent impedance of
the R-C parallel load circuit at the working frequency
must be greater than the nominal R value.
Static specifications representing accuracy for various
influence parameters are identical to the standard
BOP models. Ripple and noise specifications are better
(approximately 50% lower) for the C option units
compared to the standard BOP.
In voltage mode, with a resistive load, the
bandwidth of the BOP Capacitive Load is reduced
versus the standard model, while the response time is
increased (except the 20V model: see Specifications
Chart). The frequency response variations can be
practically eliminated by reducing the bandwidth in
voltage mode in a predictable manner using an
internal user-installed component to increase the
internal compensation capacitance (see Bandwidth
Correction Chart).
In Current Mode the dynamic specifications are
almost identical for all BOP C option models: 3-dB
bandwidth of 4.9kHz and rise/ fall time of 72µsec
(lower bandwidth and higher rise/fall time than the
standard BOP models).
For more information on the BOP Capacitive Load Models visit
www.kepcopower.com/bop-cap.htm
APPLICATIONS FOR KEPCO’S
BOP CAPACITIVE LOAD MODELS
Solar Cell/Panel
Research and Testing
Driving and Testing
Piezo-Electric Devices
Capacitor Testing
Driving and Testing
Capacitive Transducers
Industrial or Lab Applications
with Capacitive or
Capacitive-Resistive Loads
BOP CAPACITIVE LOAD SPECIFICATIONS
BANDWIDTH (DC TO F-3dB)
CAPACITIVE
LOAD, 10uF (3)
RESISTIVE
LOAD, NOMINAL(2)
RISE/FALL
TIME (4)
BOP 20-10MC
0 to ±20V, 0 to ±10A
MODEL /
SPECIFICATION (1)
BOP 36-12MC
0 to ±36V, 0 to ±12A
BOP 50-4MC
0 to ±50V, 0 to ±4A
BOP 72-6MC
0 to ±72V, 0 to ±6A
BOP 100-4MC
0 to ±100V, 0 to ±4A
12 KHz
14 KHz
32μS
RECOVERY TIME
AT STEP LOAD (5)
100μS
BOP 36-6MC
0 to ±36V, 0 to ±6A
13.5 KHz
16.3 KHz
32μS
95μS
BOP 20-20MC
0 to ±20V, 0 to ±20A
4.8 KHz
5.3 KHz
75μS
225μS
13.5 KHz
16 KHz
30μS
95μS
BOP 50-8MC
0 to ±50V, 0 to ±8A
9 KHz
11 KHz
38μS
160μS
11.5 KHz
15 KHz
35μS
100μS
6.5 KHz
8.3 KHz
60μS
184μS
6.0 KHz
8.0 KHz
66μS
190μS
200 WATT
400 WATT
KEPCO, INC. • 131-38 Sanford Avenue • Flushing, NY 11355 USA • Tel: (718) 461-7000 • Fax: (718) 767-1102
Email: [email protected] • www.kepcopower.com
BOP CAPACITIVE LOAD - BANDWIDTH CORRECTION
BOP 36-6MC
INTERNAL USER-INSTALLED CAPACITOR
MODEL
1 nF
2.2 nF
4.7 nF
15 nF
33 nF
47 nF
100 nF
12.1 KHz
10 KHz
7.8 KHz
3.5 KHz
2.2 KHz
1.4 KHz
0.5 KHz
BOP 20-20MC
4.6 KHz
4.4 KHz
3.2 KHz
1.3 KHz
0.7 KHz
0.6 KHz
0.5 KHz
BOP 20-10MC
11.5 KHz
9 KHz
7.5 KHz
3.5 KHz
2.2 KHz
0.5 KHz
BOP 36-12MC
12 KHz
10 KHz
7.6 KHz
3.5 KHz
2.2 KHz
1.4 KHz
0.5 KHz
BOP 50-4MC
11 KHz
9 KHz
7 KHz
3 KHz
1.5 KHz
1 KHz
0.5 KHz
BOP 50-8MC
8.5 KHz
8 KHz
6.5 KHz
4.5 KHz
3 KHz
1.5 KHz
0.5 KHz
BOP 72-6MC
6.5 KHz
6.0 KHz
5.3 KHz
2.7 KHz
1.4 KHz
0.9 KHz
0.5 KHz
BOP 100-4MC
6.0 KHz
5.4 KHz
4.2 KHz
2.5 KHz
1.5 KHz
1.1 KHz
0.5 KHz
The listed bandwidth values are for C option units in Voltage Mode, nominal resistive load.
1.3 KHz
200 WATT
400 WATT