22D-B2P3N104 Allen-Bradley, 22D-B2P3N104 Datasheet - Page 20

22D-B2P3N104

Manufacturer Part Number

22D-B2P3N104

Description

Powerflex 40p

Manufacturer

Allen-Bradley

Datasheet

1.22D-B2P3N104.pdf (36 pages)

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PowerFlex 40P Technical Data

Control Wiring

• The control logic is 24V DC and can be

• Control terminal screws are sized for a

• I/O Terminals 1 and 2 are semi-

• I/O Terminals 5, 6, 7 and 8 are fully

• Speed can be controlled via (2) analog

• The drive is shipped with a jumper

➊

➋

➌

➍

➎

➏

set for either Sink or Source control via a

DIP switch setting.

conventional blade screw driver.

programmable and dedicated for Stop,

Start and SW Enable inputs.

These I/O Terminals can be programmed

for 2- or 3-Wire operation to meet

application requirements.

programmable and provide added

flexibility. Programmable functions

include Local Control, Second Accel/

Decel, Clear Fault, Preset Frequencies,

RS485 Control, Auxiliary Fault, and

Purge.

inputs. Both inputs can be configured for

either voltage or current and can be used

for applications such as PID. Voltage

input can be programmed for bipolar

operation.

installed between I/O Terminals 01 and

11. This jumper can be removed when

using I/O Terminal 01 as a Stop or Enable

input.

Important: I/O Terminal 01 is always a coast to stop input except when P036 [Start Source] is set to “3-Wire”, “2-W Lvl Sens” or “Momt FWD/REV” control. In three wire control, I/O Terminal

01 is controlled by P037 [Stop Mode]. All other stop sources are controlled by P037 [Stop Mode].

Important: The drive is shipped with a jumper installed between I/O Terminals 01 and 11. Remove this jumper when using I/O Terminal 01 as a stop or enable input.

Two wire control shown. For three wire control use a momentary input

The function of I/O Terminal 03 is fully programmable. Program with E202 [Digital Term 3].

Match the Voltage Range Select DIP switch setting with the control scheme for proper Uni-Polar or Bipolar analog input operation.

When using an opto output with an inductive load such as a relay, install a recovery diode parallel to the relay as shown, to prevent damage to the output.

When the ENBL enable jumper is removed, I/O Terminal 01 will always act as a hardware enable, causing a coast to stop without software interpretation.

P036 [Start Source] Stop

3-Wire

2-Wire

2-W Lvl Sens

2-W Hi Speed

RS485 Port

Momt FWD/REV

Per P037

I/O Terminal 01 Stop

Per P037

Coast

Per P037

Coast

Per P037

(5)

Relay Common

Relay N.O.

Relay N.C.

on I/O Terminal 02 to command a start. Use a maintained input

R1 R2 R3

Enable Jumper

0-20mA

0-10V

SNK

SRC

➏

SNK

30V DC

50mA

Non-inductive

Analog Output Select

➊

01 02 03 04 05

+ / - 10V

SRC

11 12 13 14 15

0-10V

0/4-20mA

+24V

+10V

10V

➍

06 07 08 09

16 17 18 19

Stop

Start/Run FWD

Direction/Run REV

Digital Common

Digital Input 1

Digital Input 2

Digital Input 3

Digital Input 4

Opto Common

+24V DC

+10V DC

0-10V (or ±10V) Input

Analog Common

4-20mA Input

Analog Output

Opto Output 1

Opto Output 2

RS485 Shield

Voltage Range Select

for I/O Terminal 03 to change direction.

➊➏

ENBL

➋

Enable

Jumper

SRC Wiring

➌

Typical

➍

➏

Pot must be

1-10k ohm

2 Watt Min.

RS485

(DSI)

Common

SNK Wiring

Typical

24V

➎

22D-B2P3N104 Allen-Bradley, 22D-B2P3N104 Datasheet - Page 20

22D-B2P3N104

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