Table 1-4. overvoltage/overcurrent settings, Ate dynamic specifications, resistive load -4, Overvoltage/overcurrent settings -4 – KEPCO ATE-DMG SERIES User Manual

1-4

ATE-DMG OPER 042314

TABLE 1-3. ATE DYNAMIC SPECIFICATIONS, RESISTIVE LOAD

OUTPUT

VOLTAGE RATING

PROGRAMMING BANDWIDTH

(FAST MODE)

(KHz)

PROGRAMMING TIME CONSTANT

(FAST MODE)



sec)

Typical

minimum

Typical

maximum

6V

23.0

16.0 7.0

10.0

15V

20.0

10.6 8.0

15.0

25V

11.5

8.0 14.0

10.0

36V

8.0

6.4 20.0

20.0

55V

4.8

4.0 33.0

25.0

75V

4.3

3.5 37.0

40.0

100V

2.7

2.5 60.0

45.0

150V

1.8

1.7 88.0

95.0

325V

1.5

0.937

110.0

170.0

NOTES:

1.

VOLTAGE RECOVERY FOR A STEP-LOAD CURRENT IN FAST MODE: The time required for the stabilized output
voltage to recover to within 0.1% (10mV for ATE 75-15DMG) of the output voltage setting, for a 10 to 100% step in rated
load current is typically less than 50usec., 100usec. maximum.

2.

CURRENT RECOVERY FOR STEP-LOAD VOLTAGE IN SLOW MODE: The stabilized output current recovers from a
step in load (compliance) voltage with an exponential response, the time constant of which is determined by the load
resistance and the tabulated output capacitance (See Table 1-1).

3.

PROGRAMMING SPEED: The speed with which the power supply output responds to external programming signals is
determined by:

a) The PROGRAMMING TIME CONSTANT (



), given in the “slow” mode by either the load resistance (R

L

) and

the value of the output capacitor (C

O

, see Table 1-1):



= R

L

C

O

, or by the FEEDBACK TIME CONSTANT,

given by the product of the feedback capacitor and the feedback resistor:



= R

f

C

f

. whichever is greater. In

the “fast” mode, the PROGRAMMING TIME CONSTANT and bandwidth (-3dB) for the Voltage Control Chan-
nel is shown above.

For the Current Control Channel, the PROGRAMMING TIME CONSTANT in Fast Mode is 25usec. typical,
50usec. maximum. (80usec. for the ATE 325-0.8M).

b) The MAXIMUM RATE OF CHANGE that the power supply output can respond to in Slow Mode is given by the

setting of the power supply's current control setting (ILIM), divided by the ATE output capacitor (C

O

see Table

1-1):

MAXIMUM RATE OF CHANGE = I

LIM

/C

O

.

TABLE 1-4. OVERVOLTAGE/OVERCURRENT SETTINGS

MODEL NUMBER

MAXIMUM

OVERVOLTAGE

SETTING

MAXIMUM

OVERCURRENT

SETTING

MODEL NUMBER

MAXIMUM

OVERVOLTAGE

SETTING

MAXIMUM

OVERCURRENT

SETTING

ATE 6-100DMG

6.5V

110A

ATE 55-20DMG

60V

22A

ATE 15-50DMG

16.5V

55A

ATE 75-15DMG

82V

16A

ATE 25-40DMG

27V

44A

ATE 100-10DMG

110V

11A

ATE 36-30DMG

39V

33A

ATE 150-7DMG

165V

7.7A