1 voltage mode, 2 current mode, Voltage mode -45 – KEPCO BHK-MG 40W (Half Rack) Series User Manual

BHK-1/2-MG 121313

3-45

3.8.4.1

VOLTAGE MODE

With the power supply in voltage mode (see Figure 3-15) and the digitally programmed output
voltage at zero, varying the high impedance voltage source from 0 to –1V causes the output
voltage of the power supply to vary linearly from 0 to E

O

max with a slope of (E

O

max) volts per

volt. The following equations give the output voltage as determined by a high impedance volt-
age source V

EXT

.

ANALOG PROGRAMMING, DIGITAL PROGRAMMING = 0:
Eo = (V

EXT

) x (11.1K/1.1K) x (–1) (10K/10K) x (–1) (R/10K)

= –(R) x |V

EXT

| (V d-c)

where

R =

Internal feedback resistance (K-ohms), determined by Model (see Table 3-10).

V

EXT

= External low impedance voltage source (Volts). This source can be either a d-c source

delivering a negative output voltage, or a function generator with an internal negative
bias. If the bias is not available from the function generator, use the digital programming
feature of the BHK-MG to provide proper bias to avoid clipping the waveform at the out-
put of the power supply.

ANALOG PROGRAMMING COMBINED WITH DIGITAL PROGRAMMING:
Eo = –(R x |V

EXT

|) – Eout

DP

(V d-c)

where

Eout

DP

= Output voltage programmed digitally (from either local keypad or remote GPIB bus)

(See above for definitions of R and V

EXT

.)

3.8.4.2

CURRENT MODE

With the power supply in current mode (see Figure 3-16) and the digitally programmed output
voltage at zero, varying the high impedance voltage source from 0 to –1V causes the output cur-
rent of the power supply to vary linearly from 0 to I

O

max with a slope of (I

O

max) mA per volt.

The following equations give the output current as determined by the low impedance voltage
source V

EXT

.

ANALOG PROGRAMMING, DIGITAL PROGRAMMING = 0:
Io =

[

(V

EXT

) x (11.1K/1.1K) x (–1 ) (10K/10K) x (–1/10) (10K/10K) ]/Rs

=

–(1/Rs) x |V

EXT

| (mA d-c)

where

Rs =Internal shunt resistance (kOhms), determined by Model (see Table 3-10).
(See above for definition of V

EXT

.)

ANALOG PROGRAMMING COMBINED WITH DIGITAL PROGRAMMING:
Io = –(1/Rs) x |V

EXT

| – Iout

DP

(mA d-c)

where

Iout

DP

= Output current programmed digitally (from either local keypad or remote GPIB bus)

(See above for definitions of Rs and V

EXT

.)