GS2_VFD

NAME
SYNOPSIS
DESCRIPTION
OPTIONS
PINS
PARAMETERS
SEE ALSO
AUTHOR
LICENSE

NAME

gs2_vfd - HAL non-realtime component for Automation Direct GS2 VFDs

SYNOPSIS

gs2_vfd [OPTIONS]

DESCRIPTION

This manual page explains the gs2_vfd component. This component reads and writes to the GS2 via a modbus connection.

gs2_vfd is for use with LinuxCNC.

OPTIONS

-b, --bits n

Set number of data bits to n, where n must be from 5 to 8 inclusive (default 8).

-d, --device path

Set the path to the file representing the serial device to use (default /dev/ttyS0).

-v, --verbose

Turn on verbose mode.

-g, --debug

Turn on debug messages. Note that if there are serial errors, this may become annoying. Debug mode will cause all modbus messages to be printed in hex on the terminal.

-n, --name string

Set the name of the HAL module. The HAL comp name will be set to string, and all pin and parameter names will begin with string (default gs2_vfd).

-p, --parity [even,odd,none]

Set serial parity to even, odd, or none (default odd).

-r, --rate n

Set baud rate to n. It is an error if the rate is not one of the following: 110, 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 (default 38400).

-s, --stopbits [1,2]

Set serial stop bits to 1 or 2 (default 1).

-t, --target <n>

Set MODBUS target (slave) number. This must match the device number you set on the GS2 (default 1).

-A, --accel-seconds <n>

Seconds to accelerate the spindle from 0 to Max RPM (default 10.0).

-D, --decel-seconds <n>

Seconds to decelerate the spindle from Max RPM to 0. If set to 0.0 the spindle will be allowed to coast to a stop without controlled deceleration (default 0.0).

-R, --braking-resistor

This argument should be used when a braking resistor is installed on the GS2 VFD (see Appendix A of the GS2 manual). It disables deceleration over-voltage stall prevention (see GS2 modbus Parameter 6.05), allowing the VFD to keep braking even in situations where the motor is regenerating high voltage. The regenerated voltage gets safely dumped into the braking resistor.

PINS

<name>.DC-bus-volts (float, out)

from the VFD

<name>.at-speed (bit, out)

when drive is at commanded speed

<name>.err-reset (bit, in)

reset errors sent to VFD

<name>.firmware-revision (s32, out)

from the VFD

<name>.frequency-command (float, out)

from the VFD

<name>.frequency-out (float, out)

from the VFD

<name>.is-stopped (bit, out)

when the VFD reports 0 Hz output

<name>.load-percentage (float, out)

from the VFD

<name>.motor-RPM (float, out)

from the VFD

<name>.output-current (float, out)

from the VFD

<name>.output-voltage (float, out)

from the VFD

<name>.power-factor (float, out)

from the VFD

<name>.scale-frequency (float, out)

from the VFD

<name>.speed-command (float, in)

speed sent to VFD in RPM. It is an error to send a speed faster than the Motor Max RPM as set in the VFD.

<name>.spindle-fwd (bit, in)

1 for FWD and 0 for REV sent to VFD

<name>.spindle-on (bit, in)

1 for ON and 0 for OFF sent to VFD, only on when running

<name>.spindle-rev (bit, in)

1 for ON and 0 for OFF, only on when running

<name>.status-1 (s32, out)

Drive Status of the VFD (see the GS2 manual)

<name>.status-2 (s32, out)

Drive Status of the VFD (see the GS2 manual) Note that the value is a sum of all the bits that are on. So a 163 which means the drive is in the run mode is the sum of 3 (run) + 32 (freq set by serial) + 128 (operation set by serial).

PARAMETERS

<name>.error-count (s32, RW), <name>.loop-time (float, RW)

how often the modbus is polled (default 0.1)

<name>.nameplate-HZ (float, RW)

Nameplate Hz of motor (default 60)

<name>.nameplate-RPM (float, RW)

Nameplate RPM of motor (default 1730)

<name>.retval (s32, RW)

the return value of an error in HAL

<name>.tolerance (float, RW)

speed tolerance (default 0.01)

<name>.ack-delay (s32, RW)

number of read/write cycles before checking at-speed (default 2)

SEE ALSO

GS2 Driver in the LinuxCNC documentation for a full description of the GS2 syntax

GS2 Examples in the LinuxCNC documentation for examples using the GS2 component

AUTHOR

John Thornton

LICENSE

GPL