AKT2G-SM-L50 LEDs & Connections


  • WARNING! Risk of electric shock and damage of devices possible!

    Bring the bus terminal system into a safe, powered down state before starting installation, disassembly or wiring of the Bus Terminals!

Figure 8-56: LEDs and connection of the AKT2G-SM-L50

LEDs

Left Prism

LED Color Meaning

RUN

green

This LED indicates the terminal's operating state:

off

State of the EtherCATClosed ***EtherCAT is an open, high-performance Ethernet-based fieldbus system. The development goal of EtherCAT was to apply Ethernet to automation applications which require short data update times (also called cycle times) with low communication jitter (for synchronization purposes) and low hardware costs State Machine: INIT = Initialization of the terminal or BOOTSTRAP = FunctionClosed A function calculates a result according to the current value of its inputs. A function has no internal data and is not linked to declared instances. for firmware updates of the terminal

blinking

State of the EtherCAT State Machine: PREOP = Setting for mailbox communication and variant standard settings

single flash

State of the EtherCAT State Machine: SAFEOP = Channel checking of the Sync Manager and the Distributed Clocks. Outputs stay in safe operation mode.

on

State of the EtherCAT State Machine: OP = Normal operation mode, mailbox- and process data communication possible

Encoder

green

on

Encoder ready for operation

A

green

on

Signal at encoder input A

B

green

on

Signal at encoder input B

C

green

on

Signal at encoder input C

LatchClosed The control word is used to activate the drive's latch status machine. The latch control word is processed independently of the EtherCAT bus cycle. The status word is used to return the drive's latch status

green

on

Signal at latch input

Input 1

green

on

Signal at digital input 1

Input 2

green

on

Signal at digital input 2

Right Prism

LED

Color

Meaning

DriverClosed In computing and electronics, a driver is a software component allowing higher-level computer programs to interact with a computer hardware device. A driver typically communicates with the device through the computer bus or communications subsystem to which the hardware is connected

green

on

Driver stage ready for operation

Power

green

off

The power supply voltage (50 VDC) is absent or the motor control is blocked (Index 6010:02] is not set))

on

The power supply voltage (50 VDC) is present

Turn CW

green

on

Motor is triggered clock wise

Turn CCW

green

on

Motor is triggered counter clock wise

Enable

green

off

The motor control is blocked (Index 6010:02] is not set) or SM-L50 is not ready for operation

on

The motor control is activated (Index 6010:02] is set) or SM-L50 is ready for operation

Warning

yellow

off

No errors

on

Configuration error, e.g.:

  • Motor power supply not connected
  • 80°C temperature exceeded
  • 100% duty cycle reached
  • ...

Error A

red

on

Configuration error of output stage A, e.g.:

  • 100°C temperature exceeded
  • short circuit
  • ...

Error B

red

on

Configuration error of output stage B, e.g.:

  • 100°C temperature exceeded
  • short circuit
  • ...

Terminal Points

Left-hand section of the housing

Terminal point

Name

Signal

1

A

Encoder input A

2

C

Encoder input C (zero input). If object 7000:01 is set in the control word and a rising edgeClosed A rising edge is the transition of a digital signal from low to high. It is also called positive edge occurs at encoder input C, the current counter value is stored as a reference mark in the latch register.

3

Encoder supply +24V

Encoder supply (from positive power contact)

4

Input 1

Digital input 1 (24 VDC)

5

B

Encoder input B

6

Latch / Gate

Latch input. The current counter value is stored as a reference mark in the latch register, if

  • object 7000:02 is set and a rising edge occurs at the latch input; or
  • object 7000:04 is set and a falling edge occurs at the latch input.

7

Encoder supply 0V

Encoder supply (from negative power contact)

8

Input 2

Digital input 2 (24 VDC)

Right-hand section of the housing

Terminal point

Name

Signal

1'

A1

Motor winding A1

2'

B1

Motor winding B1

3'

Motor supply +50V

Feeding for output stage (max. +50 VDC)

4'

Motor supply +50V

Feeding for output stage (max. +50 VDC)

5'

A2

Motor winding A2

6'

B2

Motor winding B2

7'

Motor supply 0V

Feeding for output stage (0 VDC)

8'

Motor supply 0V

Feeding for output stage (0 VDC)