External current limit - continuous (eclc), External voltage, External resistor – ElmoMC SimplIQ Analog Servo Amplifiers-Violin Installation User Manual
Page 19: External current limit - peak (eclp), 4 external current limit - continuous (eclc), 5 external current limit - peak (eclp), 1 external voltage, 2 external resistor
Violin Installation Guide
Servo Control Operation
MAN-VIOIG (Ver. 2.3)
4-3
4.4
External Current Limit - Continuous (ECLC)
The continuous current limit of the Violin amplifier can be scaled down by an external
voltage or by an external resistor connected from pin J1/3 (ECLC) to pin J1/5 (ECLRET).
4.4.1 External
Voltage
An external positive voltage (0 to 3.75 V) to terminal J1/3 (ECLC) in reference to terminal
J1/5 (ECLRET) will control the continuous current limit from zero to Ic(nom).
The voltage is internally clamped to 3.75 V whenever the external V
ECLC
is greater
than 3.75 V.
The external voltage source must be able to source/ sink at least ±0.2 mA.
The maximum absolute V
ECLC
is 12 V.
4.4.2 External
Resistor
Connect an external resistor between terminal J1/3 (ECLC) and terminal J1/5 (ECLRET).
The resistor value is given by:
0 < R
ECLC
< 36.4 K (1/8 Watt)
At R
ECLC
greater than 36.4 K, the current limit will be internally clamped to the
nominal value.
I
C(nom)
is the nominal continuous current limit of the amplifier.
4.5
External Current Limit - Peak (ECLP)
The peak current limit of the Violin amplifier can be scaled down by an external voltage
or by an external resistor connected between pin J1/4 (ECLP) and pin J1/5 (ECLRET).
4.5.1 External
Voltage
An external positive voltage (0 to 3.75 V) to terminal J1/4 (ECLP) in reference to terminal
J1/5 (ECLRET) will control the peak current limit from zero to Ip(nom).
The voltage is internally clamped to 3.75 V whenever the external V
ECLP
is higher than
3.75 V.
The external voltage source must be able to source/ sink at least ±0.2 mA.
The maximum absolute V
ECLP
is 12 V.
V
ECLC
IC(new) =
3.75V
* Ic(nom)
V
ECLC
IC(new) =
3.75V
* Ic(nom)
(Kohm) = 37.4 *
R
ECLC
Ic(new)
Ic(nom)
- 1
(Kohm) = 37.4 *
R
ECLC
(Kohm) = 37.4 *
R
ECLC
Ic(new)
Ic(nom)
- 1
V
ECLP
Ip(new) =
3.75V
* Ip(nom)
V
ECLP
Ip(new) =
3.75V
* Ip(nom)