Example 3 – Rockwell Automation 23P PowerFlex DC Stand Alone Regulator and Gate Amplifier User Manual

Rockwell Automation Publication 23P-UM001D-EN-P - July 2012

35

Stand Alone Regulator Installation, Wiring and Configuration

Chapter 2

Example 3:

The only difference between Example 2 and Example 3 is the value of the burden
resistor. In this example the burden resistor is chosen as Rb = 5.0 Ohms.

In this example a standard CT ratio is chosen and the ratio no longer exceeds the
recommended CT ratio based on the gain calculation. This is due to the change
of the burden resistor from 2.5 Ohms to 5.0 Ohms.

CT, Burden Resistor and Gain Calculation

Minimum CT Primary based on IOC trip point of 2.5 x Power Module rating

Maximum CT ratio based on Gain Range of Scaling Op-Amp in the Current
Feedback circuit

Input Values

Units

Description

IdN_pm_rtg: = 226

Amp

Power module rating

Rb: = 5.0

Ohms

Jumper J5 in the “On” position
and jumper J4 in the “Off”
position. See

Figure 13 on

page 39

for jumper locations.

CT_pri: = 2000

Amp

CT_sec: = 1

Amp

Value/Calculation

Units

Description

IOC_mult: = 2.5

CT_pri_min: =
IOC_mult x IdN_pm_rtg x 0.85

0.85 is the ratio of AC to DC
current

CT_pri_min = 480

Amp

Based on IOC trip point

CT_ratio_min_based_on_ioc: = CT_pri_min / CT_sec

CT_ratio_min_based_on_ioc = 480

Based on IOC trip point

Value/Calculation

Units

Description

CT_ratio_max: = 1.2 x (IdN_rtg x Rb) / 0.612

CT_ratio_max = 2.216 x 10

3

Based on Gain <= 1.2

Value/Calculation

Units

Description

Vf_at_IdN_pm_rtg = 0.612

Volts

Fixed Value

CT_ratio: = CT_pri / CT_sec

CT_ratio = 2 x 10

3

Ib_at_IdN_pm_rtg: = IdN_pm_rtg / CT_ratio

Ib_at_IdN_pm_rtg = 0.113

Amps

Vb_at_IdN_pm_rtg: = (IdN_pm_rtg / CT_ratio) x Rb