Debug Mode, Monitor Modes | Hitachi SJ700-2 Series instruction

3. Debug Mode

Specifying "01" (ON) for the debugging-mode selection function (C091) displays the functions described below. Note: The debugging-mode selection function (C091) is not displayed when the factory settings are applied. To enable the display of said function, specify "00" (ALL) for the display selection function (b037).

3.1 Monitor Modes

No.	Function name	Function code	Range of monitoring
1	Monitoring of control frequency	d101	0.00-99.99/100.0-400.0(Hz)
2	Monitoring of trip factor determined	d105	00-FF
	by gate array
3	Monitoring of MCU No	d106	0000-9999
4	Monitoring of maximum voltage	d109	0.0-999.9(V)
5	Monitoring of temperature on printed	d110	-20.0-200.0(°C)
	circuit board
6	Monitoring of maximum temperature	d111	-20.0-200.0(°C)
	on printed circuit board

Each monitoring function is described below.

(1)Monitoring of control frequency (d101)

This monitoring function displays on the monitor the final control frequency output by the inverter.

(2) Monitoring of trip factor determined by gate array (d105)

Upon detecting a trip factor, the gate array transfers an 8-bit signal indicating the trip factor to the MCU as follows:

bit7

bit6

bit5

bit4

bit3

bit2

bit1

bit0

Gate	array IGBT error	IGBT error	Temperature Overvoltage		Undervoltage	IGBT error	Ground
error	Phase W	Phase V	error	protection	(E09)	Phase U	fault	of
(E25)	(E30)	(E30)	(E20 or E21)	(E07)	*NOTE3	(E30)	optional unit
	*NOTE1	*NOTE1	*NOTE2			*NOTE1	(E14)

Note 1: The phase of an IGBT error cannot be determined on inverter models in which a single power module is mounted. In such cases, bit 6 indicates all IGBT errors.

Note 2: Error code "E20" is displayed upon the detection of lower cooling-fan speed.

This monitoring function (d105) displays a hexadecimal code on the monitor. Example 1: Display of "10"

10 (hexadecimal) = 00010000 (binary)

Since bit 4 of the binary code is "1", this code indicates that a temperature error caused the trip. Example 2: Display of "62"

62 (hexadecimal) = 01100010 (binary)

Since bits 6, 5, and 1 of the binary code are "1", this code indicates that IGBT errors in phases U, V, and W caused the trip.

Note 3: This monitoring function can be used to check the trip content only while the inverter is in a tripping state. See Section 3.3 for how to check the trip content according to the trip history.

Note 4: Normally, the inverter is automatically self-reset periodically from the trip due to undervoltage detected by the gate array. Therefore, bit 2 of the trip factor signal may not be set to "1" even if undervoltage occurs.

Also note that undervoltage may be detected as a gate array error (E25) in case of undervoltage signal chatter.

(3)Monitoring of MCU No. (d106)

This monitoring function displays the software management number of preinstalled MCU software.

(4) Monitoring of maximum voltage (d109)

This monitoring function displays the maximum voltage detected across terminals P and N while the inverter is stopped.

(5) Monitoring of temperature on printed circuit board (d110)

This monitoring function displays the temperature on the printed board of main circuit in the power module.

(6) Monitoring of maximum temperature on printed circuit board (d111)

This monitoring function displays the maximun temperature on the printed board of main circuite board in the power module.

3-1