Document release	Description	Note	Date
01	New manual		16/09/2013

The controller has been designed for industral environments in conformity to EC directive 2004/108/CE.

EN 61000-6-4: Electromagnetic compatibility - Generic standard on emission for industrial environments
- EN55011 Class A: Limits and measurement methods

EN 61000-6-2: Electromagnetic compatibility - Generic standard on immunity for industrial environments
- EN 61000-4-2: Electromagnetic compatibility - Electrostatic discharge immunity
- EN 61000-4-3: Immunity to radiated, radio-frequency electromagnetic field
- EN 61000-4-4: Electrical fast transients
- EN 61000-4-5: Surge immunity
- EN 61000-4-6: Conducted disturbance induced by radio-frequency

Moreover the product is conform to the following standards:
- EN 60529: Housing protection rating IP64
- EN 60068-2-1: Environmental testing: Cold
- EN 60068-2-2: Environmental testing: Dry heat
- EN 60068-2-14: Environmental testing: Change of temperature
- EN 60068-2-30: Environmental testing: Cyclic damp heat
- EN 60068-2-6: Environmental testing: Sinusoidal vibration
- EN 60068-2-27: Environmental testing: Shock vibration
- EN 60068-2-64: Environmental testing: Random vibration

2. Description

A1-HMI-QC050 is a operator panel of the Qpanel+ series, can be equipped with:

Standard equipment
	Graphics LCD display 5” TFT-256 COLORS-800x480px
	Resistive Touch Screen Panel
	1 PROG PORT serial program port (Use with IQ009) accessory
	1 multistandard (RS232/422/485) serial - USER PORT
	1 Memory Card MMC/SD reader
	4 signal leds
	8 system leds
	Anti-vibrating spring clamps
	Clock calendar
	Interchangeable front label
	Customizable function keys
	8 standard digital inputs
	8 digital outputs

	The Ordering Code provides the exact product features.

Model				Features
A1-HMI-QC050	-	01	/	TP01	/	D08	/	24
								24 = Power supply 24Vdc
						D08 = Specialization cards
				TP00 = Keyboard code (TP00 = resisitive touch-screen panel, logo and customizable function keys); TP01 = resisitive touch-screen panel, logo and QEM function keys
		01 = Firmware version (00 = not installed)
A1 = HMI family HMI = Human Machine Interface Q = Qpanel series C = Panel Graphic colors 050 = Graphics LCD display 5” TFT-256 COLORS-800x480px; front panel dimensions (168x144mm); keyboard with 7 keys + 11 leds; box with standard DIN 43700

a - Ordering Code
b - Week made: indicates the week and year of manufacture
c - Part number: unique code that identifies an ordering code
d - Serial number: product serial number, different for individual product
e - Hardware release: version of hardware release

Is available the following versions:

Model	Digital inputs	Protected digital outputs
	Features
A1-HMI-QC050-01/TP00/D08/24V	8	8

a = System led's
b = Function keys and led's

The A1-HMI-QC050 has the specialization card.

Weight (full hardware)	0,8 Kg
Housing	Sheet metal
Front panel	Alluminium
Outer Frame	Self-extinguishing Noryl
Display	LCD TFT 5” TFT-256 COLORS-800 x 480px
Touch screen	wire Resistive
Display dimensions	108(W) x 64,8(H)mm / 5”
User led's	7
System led's	4 to front panel, 8 on rear
Function keys	7
System keys	3
Operating temperature	0 ÷ 50°C
Relative humidity	90% condensate free
Altitude	0 - 2000m s.l.m.
Transport and storage temperature	-25 ÷ +70 °C
Front protection rating	IP64

	Lenghts in mm

Fit the controller in the hole.

Apply the brackets.

	Before fixing the controller, check it is mounted firmly in the hole and the gasket under the frame makes a good seal. No liquids must enter and the frame must not deform.

Screw the controller in place.

	Warning: after putting the pin of fixing, do only half rotation to not tear the frame!

	• Please read carefully. • See technical notes on Weidmuller terminals BLZF, BLZ and B2L.

Family	Wire Section no end caps	Wire section with end caps	Tools
BLZF 3.5	0.3-1.50 mm²	0.3-1 mm²	Open the self-locking, spring clip terminals with a flat blade screwdriver to DIN 5264-A as shown below See the table below for recommended cap ends To crimp the cap ends to the wire use the tool below
B2L 3.5	0.3-1.00 mm²	0,3-0.5 mm²
BLZF 5.08	0.3-2.50 mm²	0.3-2.00 mm²
BLZ 5.00	0.2-2.50 mm²	0.1-1 mm²	The screw terminals can be tightened with a flat blade screwdriver to DIN 5264 as shown in fig.4.7 Tightening torque: 0.4 - 0.5 Nm.

For a safer cabling, always use wire end caps

End caps

Wire section	End cap section	Make	Model
0.1-0.3 mm²	0.95 mm²	Cembre	PKE 308
0.3-0.5 mm²	1.32 mm²	Cembre	PKE 508
0.3-0.5 mm²	1.32 mm²	BM	BM00601
1 mm²	2.5mm²	BM00603	PK 108
1 mm²	2.5mm²	BM	BM00603

End cap crimping tool

Use a crimp tool type “Cembre ND#4 cod. 2590086”

Screwdrivers

Screwdriver for opening self-locking spring clip terminals:
A = 0.6mm
B = 2.5mm max
C = 7 mm min

Screwdriver for tightening screw terminals:
A = 0.6mm
B = 3.5mm

Strip 10mm of copper wire

Fit the end cap and crimp it with a crimping tool

a) fit the screwdriver without turning it
b) fit the cable in the terminal

Remove the screwdriver

	• The cabling must be carried out by specialist personnel and fitted with suitable anti-static precautions. • Before handling the controller, disconnect the power and all parts connected to it. • To guarantee compliance with EC regulations, the power supply must have a galvanic isolation of at least 1500Vac.

Power supply available	24 Vdc
Valid range	22 ÷ 27 Vdc
Max Absorption	30W

4.1.1.1 Connection examples for the 24Vdc power supply

	It requires the use of an insulated power supply with output 24Vdc +/-5% conforms to EN60950-1.

Use two separate power units: one for the control circuit and one for the power circuit

For a single power unit, use two separate lines: one for the control and one for the power

DO NOT use the same lines for the power circuit and the controller

Connettore USER PORT

Morsetto	RS232	RS422	RS485	Descrizione
1A	-	-	A	Terminale A - RS485
2A	-	-	B	Terminale B - RS485
3A	0V	0V	0V	Comune USER PORT
4A	0V	0V	0V	Comune USER PORT
5A	TX	-	-	Terminale TX - RS232
6A	Terra
1B	-	RX	-	Terminale RX - RS422
2B	-	RXN	-	Terminale RX N - RS422
3B	-	TX	-	Terminale TX - RS422
4B	-	TXN	-	Terminale TX N - RS422
5B	RX	-	-	Terminale RX - RS232
6B	Terra

Settaggio standard elettrico USER PORT

Num. Dip	Nome DIP	Impostazione dei DIP			Funzione
1	JP2	ON	X¹⁾	X²⁾	Terminazione RS485
2	JP3	ON	X³⁾	X⁴⁾	Polarizzazione RS485
3	JP1	ON	X⁵⁾	X⁶⁾	Polarizzazione RS485
4		OFF	ON	OFF	Selezione standard elettrico USER PORT
5		ON	OFF	OFF
6		OFF	OFF	ON
		RS485	RS422	RS232⁷⁾

^{1),
2),
3),
4),
5),
6)} X = settaggio non influente

⁷⁾ E' possibile usare la USER PORT come PROG PORT con standard elettrico RS232, impostando ad ON il DIP-8 di SW1 e ad OFF il DIP-6 di SW2

Memory card slot (marked by an arrow)

Connector for IQ009 or IQ013

	The USB mini-B connector does not support USB electrical standards, it can only be used with an interface IQ009 or IQ013.

It is used for the transfer and debugging of the application program in the CPU.

Electrical standard	TTL (Use serial interface IQ009 or IQ013)
Communication speed	Min. 9.6 Kbaud - max 115200 Kbaud settable by dip1 and 2 of the switch SW1
Insulation	None

.


Connection between Qmove+ e PC using the accessory IQ009

.


Connection between Qmove+ and a device fitted with a RS232 serial port (e.g. a MODEM), using the interface IQ013

Communication speed	4800, 9600, 19200, 38400, 57600, 115200 baud
Communication mode	Full duplex
Operating mode	Referred to 0V
Max. number of devices connected on the line	1
Max. cable length	15 m
Input impedence	> 3 Kohm
Short-circuit current limit	7 mA

Communication speed	4800, 9600, 19200, 38400, 57600, 115200 baud
Communication mode	Full duplex
Operating mode	Differential
Max. number of devices connected on the line	1
Max. cable length	1200 m
Input impedence	> 12 Kohm
Short-circuit current limit	35 mA

	To activate the internal termination resistance see paragraph Setup of USER PORT electric standard, Setup of AUX1 PORT electric standard or Setup of AUX2 PORT polarization and termination resistances

.

Communication speed	4800 baud (only if used with SERCOM and/or MODBUS device), 9600 baud, 19200 baud, 38400 baud, 57600 baud
Communication mode	Half duplex
Operating mode	Differential
Max. number of devices connected on the line	32
Max. cable length	1200 m
Input impedence	> 12 Kohm
Short-circuit current limit	35 mA

Type of Memory Card to use	MMC, SD and SDHC up to 8GB For proper operation it is necessary that the device conforms to the standards set by “SD Association” (www.sdcard.org) or “Multi Media Card Association” (www.mmca.org).

.

	To use the Memory Cards they must first be formatted with FAT16 or FAT32 file system.

4.3.1.1 16 digital inputs and 2 counter inputs

	The electrical features are given in section Electrical features. The connection examples are provided in section Connection examples

Terminal	Simbol	Description	Address
1	0V	Common of digital inputs
2	I1	Input I1	2.INP01
3	I2	Input I2	2.INP02
4	I3	Input I3	2.INP03
5	I4	Input I4	2.INP04
6	I5	Input I5	2.INP05
7	I6	Input I6	2.INP06
8	I7	Input I7	2.INP07
9	I8	Input I8	2.INP08

	The electrical features are given in section Electrical features. The connection examples are provided in section Connection examples

Terminal	Simbol	Description	Address
1	V+	Outputs power supply input (12÷28V dc)
2	O1	Digital output 1	2.OUT01
3	O2	Digital output 2	2.OUT02
4	O3	Digital output 3	2.OUT03
5	O4	Digital output 4	2.OUT04
6	O5	Digital output 5	2.OUT05
7	O6	Digital output 6	2.OUT06
8	O7	Digital output 7	2.OUT07
9	O8	Digital output 8	2.OUT08
10	V-	Outputs power supply input (0V dc)

.

The following are the electrical hardware features.
Maximum and minimum frequency values and actual acquisition times, can still depend on any additional software filters, see for example the system variable “QMOVE:sys004” in the section System variables.

Type of polarisation	PNP
Min. acquisition time (hardware)	3ms
Isolation	1000Vrms
Rated operating voltage	24Vdc
Voltage of logic state 0	0-2 V
Voltage of logic state 1	10.5 - 26.5 V
Internal voltage drop	5V
Input resistance (Ri)	2700Ω
Sink current	2mA ÷ 8mA¹⁾

¹⁾ CAUTION: If the device connected to the inputs needs a higher minimum current, inputs may not work properly.

Internal diagram of standard digital input.

Switchable load	Dc (PNP)
Max. operating voltage	28V
Insulation	1000Vpp
Max. internal voltage drop	600mV
Max internal resistance @ON	90mΩ
Max. protection current	12A
Max. operating current	2A
Max. current @OFF	5µA
Max switching time from ON to OFF	270µs
Max switching time from OFF to ON	250µs

Internal diagram of protected outputs

Standard and PNP rapid inputs connection examples

Protected digital outputs connection examples

Dip	DIP setting				Function
1	OFF	OFF	ON	ON	PROG PORT transmission speed selection
2	OFF	ON	OFF	ON
	Baud-rate 38400	Baud-rate 115200	Baud-rate 19200	Baud-rate 57600

3	OFF	OFF	ON	ON	USER PORT transmission speed selection
4	OFF	ON	OFF	ON
	Baud-rate 38400	Baud-rate 115200	Baud-rate 19200	Baud-rate 57600

5					Not used

6					Not used

7					Not used

8	OFF		ON		Select the USER PORT as PROG PORT (the USER PORT can be used as PROG PORT with RS232 electric standard, setting to OFF the dip 6 of SW2).
	PROG PORT normal		PROG PORT on the connector of the USER PORT

The “key, com, state, error” leds are called system led, they are found on both the front panel and on the back of HMI.

The user “L1, L2, L3 and L4” leds they are found only on the front panel:

6.2.1.1 Legend:

Led ON

Led OFF

Led Flashing

Led	Color	Description
key	Green	Always on. Turns off when at least one key is pressed.
com	Green	If on, indicates that the connection between the Terminal and QMOVE is not active. The causes: no connection between the devices; mismatch of checksums between the Terminal and QMOVE applications; interference on the serial line. When the communication is restored, the led turns off.
state	Yellow	If an abnormality occurs during communication between the Terminal and the QMOVE, led blinking with a 2Hz frequency. The malfunction can be hardware source (missed connection, noisy line) or software errors (incorrect readings of QMOVE variables). The causes: Time-Out when the terminal does not receive the response from the QMOVE. No match when QMOVE application checksums are different from the file symbols used to build your application on the Terminal. Read error when the read requests are made to variables with index and that index is outside of the allowed values. Write error same for read error but for write operations. Backup error when the data backup command of the QMOVE is not successful Restore error when the command to restore data of thr QMOVE is not successful or when is given a command restore application and had not been previously backed up. When the status led is flashing you should check what was the error that produced it; This can be done by accessing the Info page of the SETUP to 'Com Status' command. The error and then the blinking is cleared only on shutdown or after you exit the SETUP.
error	Red	This led is on when it detects hardware problems that might lead to malfunction of the system. Contact the QEM.

Led	Color	Description
L1	Yellow	Delete application
L2		Delete the application from the MMC/SD. The file must be named as: appqtp.bin
L1 L2		Execute the calibration of the Touch Screen.
L3		No function
L4		No function

Name	Description
FUNC	Pressed enters or exit from the system functions
BOOT	Pressed execute the selected function
RESET	No function

This chapter will introduce some concepts and describes some operations of the product. These contents are partly related and implemented in firmware. This software implements all features that allow the product to be a component of the system programmable Qmove.

To best understand the terms used in this chapter, it is important to know the organisation of data and memory in a QMOVE application. QMOVE applications are programs written in QCL language that, translated in binary code, are transferred onto QMOVE hardware and saved there. In the hardware, the microprocessor runs has a program called firmware that interprets the above binary code instructions and performs the operations associated to them.

A QCL application, in addition to the instructions, is also composed of variables that the QCL instructions act on.. Some of these variables are retentive, i.e. their values remain unaltered from shut-off to start up. The flow chart below illustrates the organisation of data in a QCL application transferred to the memory of any QMOVE hardware:

It can be noted that, the QMOVE hardware has several mass storage devices:

“Flash memory”, where the following is saved:

QCL program: the series of QCL instructions translated into binary by the compiler.
HMI program: the series of HMI screens translated into binary by the compiler. This program only exists when the QMOVE hardware has a display.
Configuration data: the calibration and configuration data, the touch-screen calibration settings, the ethernet communication configuration data (IP address, etc…), etc.

“Non volatile memory”, which stores:

Retentive variables: the group of variables that remains unaltered on a shut-off and startup (e.g. SYSTEM, ARRAYS, DATAGROUP, etc).

“Volatile memory”, which stores:

Not retentive variables: the group of variables that is set to 0 at each startup (e.g. GLOBAL, ARRGBL, etc).

The volatile data memory is also used as dynamic memory. i.e. the memory used by the firmware for internal operations and active HMI screen management.

“Mass storage internal device” is managed by a standard filesystem and is useful to save information by the DATASTORE device (read - write binary or csv files with recipes, logs, variuous setups, etc).
It 'also used to store the backup of the application QMOVE and other service files.

“Mass storage external device” is managed by a standard filesystem and is useful for loading the QMOVE application, data loading/saving, firmware update or to save informations by the DATASTORE device.

	ATTENZIONE: WARNING: The use of these procedures is potentially dangerous (see for example the application delete) and it is preferable that is carried out by a specialist supervision.

The system functions are special procedures that allow the user to perform various operations such as setting/calibration of devices, saving/restoring data and application on/from removable devices, deleting the application and management of storage devices.
To access the new system functions simply login to instrument SETUP.

Note: If there is no Terminal application software will automatically enter in SETUP.

To access in the System functions, press the BOOT key or press together the keys “F2 + F4 + F6”.	BOOT

The following menu appears:

To select a function using the vertical arrows of the virtual keyboard, then press Enter for view the selected function. The system restarts and displays the system function selected.

Virtual keyboard

Lists and describes all system functions.

7.3.2.1 Navigation keys

To enter/confirm the functions press ENTER key .
The UP and DW keys perform changes of values.
To switch from one page to another press PAGE DOWN key or PAGE UP key .
For exit from the menu press the ESC key .

Note: For exit from the system functions select “EXIT” from the main menu.

7.3.2.2 Info menu

7.3.2.2.1 INFO PAGE 1/6

7.3.2.2.2 FW code

Firmware code (es. HD010003)

7.3.2.2.3 FW ver.

Firmware version (es. 01.0.3)

7.3.2.2.4 IF code

Data not available.

7.3.2.2.5 IF ver.

Data not available.

7.3.2.2.6 INFO PAGE 2/6

7.3.2.2.7 Date

System date.
The ESC key is inhibited until the confirmation of all the fields by pressing the ENTER key.

7.3.2.2.8 Time

System clock.
The ESC key is inhibited until the confirmation of all the fields by pressing the ENTER key.

7.3.2.2.9 Com.St.

Reports the status of the serial communication. If everything is OK the message: Ok
If the ‘COM’ led is ON and the'STATE' led flashing, the connection between the HMI and the QMOVE is not active. The reasons can be:

Checksum wrong Appears the ‘No match’ message, which means that the application built for the Terminal is not compatible with the QMOVE software and then the communication is not established because it may create incompatibilities in data of the system. The ‘No match’ condition excludes communication problems due to connection errors or problems related to serial ports.

Communication interrupted Appears the ‘Time Out’ message, which means that the terminal not received response or the response has not been received completely. If the ‘COM’ led is ON it probably means there is a malfunction of one of the two devices (QMOVE or HMI) or connection between the device. If the 'COM' led is OFF means that at least one ‘Time Out’ occured from the power ON (example an electrical noise).

Reading errors Appears the ‘Read Error’ message, which means that the the response string to a reading didn't the correct syntax of the Protocol. This can happen if the Terminal makes a request of a variable with index out of range. For example the read request of an element of an array, where the value of i is greater than the size of the array itself; if i is a constant value that the compiler of the application can inspect and report the error, but if i is the value that is contained in a variable can take place such an error.

Writing errors Appears the ‘Write Error’ message, which means that the response string to a reading didn't the correct syntax laid down in the Protocol. All that has been described for the readings also applies to torn writes

Backup error Appears the ‘Backup Error’ message, which means that the QMOVE application data backup operation is not successful.

Restore error Appears the ‘Restore Error’ message, which means that the restore operation of data of the QMOVE application is not successful.

7.3.2.2.10 INFO PAGE 3/6

7.3.2.2.11 App.format

Identifies the type of application file format. It is used to prevent the execution of applications with a format that is not compatible with the firmware. (Is an information used only by the development “QPaint” software).

7.3.2.2.12 App.checks

The value allows you to uniquely identify a particular application. It is computed on the information used in the download of the application.

7.3.2.2.13 App.title

Is a string that is set in the configuration “Qpaint” program to identify the application. Cannot be changed.

7.3.2.2.14 INFO PAGE 4/6

7.3.2.2.15 Target CPU

You see the CPU type connected with the Terminal. This information is detected with a reading from the Qmove CPU.

7.3.2.2.16 Qmove Title

Is the application title exists in the Qmove CPU. This information is detected with a serial reading by Qmove CPU.

7.3.2.2.17 INFO PAGE 5/6

7.3.2.2.18 Checksum table

You see the checksum file configuration and application Qmove symbols and symbols which the application has been generated. The first is read with the serial from the CPU, the second is a value contained in the data download.
If the checksum do no match, the connection isn't enabled between the Terminal and Qmove variables. (see “no match error or incorrect Checksum” ).

7.3.2.2.19 INFO PAGE 6/6

7.3.2.2.20 Flash Used

The value refers to the space occupied in the flash memory of QPaint project. The value is the same to the one displayed on the download page.

7.3.2.2.21 RAM Used

The value refers to the space occupied in the RAM memory from the current page displayed by the terminal before logging on to the Setup. The value refers to all structures allocated to run the page.

7.3.2.2.22 RAM Free

The value refers to the free space of the RAM memory. The sum of the first and third value, indicates the total RAM memory space.

7.3.2.3 Test Menu

The HMI has the following test procedures to assist the operator:

7.3.2.3.1 Keyboard

At the pressure of any button you see the message.
For exit press and hold the “ESC” key for 2 sec.

7.3.2.3.2 Leds

The function key leds are activated in succession with variable frequency.
Don't execute the system leds test (“Key”, “Com”, “State”, “Error”) because the function it isn't programmable and because their indications are not essential to the functionality.

7.3.2.4 Down Menu (Download)

The DOWNLOAD procedure allows the Terminal to receive the information needed to run the application designed by the user. The steps performed during the download procedure are:

Verifying the connection
Flash memory delete
Displays the size of your application to receive
Software download

7.3.2.5 SysF Menu (System Functions)

The entry in this menu is indicated by the following Leds:

Led ON	Color	Menù SysF description	System function	Description
L2	Yellow	`Delete App.`	`Application delete`	Delete the application
L1 L2		`Upload MMC`	`Application upload from MMC/SD`	CApplication upload from MMC/SD. The file must be named as: appqtp.bin
L3		`Touch Calib.`	`Touch Calibration`	The Touch Screen calibration.

For the description of functions see section System functions

7.3.2.6 Cnf Menu (Configuration)

The changes will be put into execution at the exit from the configuration page.

7.3.2.6.1 Config. Page 1/2

Each time you press the button ENTER key you jump from one sector to another sector.

Lang. Is the choice of the languages to be used. This array of strings is decided at design time in the Setup program.

Cont. Is the value of the display contrast.

Info Debug informations (default = OFF).

Tm CL CLEAR key time. During the dataentry, if the CLEAR button is pressed for longer than the time set the given typed is cleared. If the CLEAR button is pressed impulsively you cancel only one digit of the given type.

7.3.2.6.2 Config. Page 2/2

Depending on the firmware version can also exit this window:

Com0 Serial port speed System.

Com1 Serial port speed AUX.

TmOut Timeout on request to the CPU (default = 1.00 s).

TBuzz Operating time of the buzz when press a button (default = 0.100 s).

ScrSv Screen-saver settings:
0 = disable (default). Display always on.
1..60 = switches off the display after pressing the buttons or touch after 1..60 minutes. Press any key or touch the display for resumes.

7.3.3.1 Delete App. function

Press the BOOT key/F5 key for 2 seconds the the selected function is executed.	BOOT
The POW led starts flashing to indicate that the selected function is running.	POW
When the function ends the POW led stops flashing.	POW
Press the FUNC key/F1 key to exit from the function	FUNC

a = indicates that the function is in running.
b = task running.
c = percentage of the function executed.

d = indicates that the function was successful.

7.3.3.2 Upload MMC function

Press the BOOT key/F5 key for 2 seconds the selected function is executed.	BOOT
The POW led starts flashing to indicate that the selected function is running.	POW
When the function ends the POW led stops flashing.	POW
Press the FUNC key/F1 key to exit from the function	FUNC

a = indicates that the system is running.
b = operation running.
c = percentage of function executed.

d = indicates that the function was successful.

Press the FUNC key/F1 key the instrument restars.	FUNC

f the function is not successful POW led turns OFF and start the ERR led.	POW ERR

e = operation that caused the error.
f = indicates the type of error occurred.

The number of flashes indicates the type of error occurred as shown in table Error messages of system functions.

7.3.3.3 Touch Calib. function

This procedure, only available on instruments with touch-screen. Need to calibrate the pointing device.

	At the entrance of the procedure, is presented with a screen that has a blue cross. Press the center of the cross until the progress bar has reached completion.

	Appears the `“COMPLETED”` message and and you can release the pressure. Note: If the pressure is released before completion of the progress bar, the procedure is aborted and the `“!! OPERATION ABORTED !!”` message

	Thereupon a new Green Cross. Even in this case, repeat until the progress bar is complete and is displayed `“COMPLETED”` message.

	It then proposed a final page with a new cyan colored cross. Even in this case, repeat until the progress bar is complete and is displayed `“COMPLETED”` message.

7.3.3.4 Error messages of system functions

When a system function ends with an error displays a message that describes the cause of the error.

Error/Flashing number ERR led	Message
1	`Generic error`
2	`Open/Exist/Create file error`
3	`Read file error`
4	`Write file error`
5	`Out of Memory error`
6	`QMos Version error`
7	`Checksum Error`
8	`Symbols checksum No Match`
9	`Configuration / Symbols error`
10	`File format error`
11	`Format error`
12	`Device not present or unformatted`
13	`Application not present error`
14	`Touch operation failure`
15	`File compression type not support`
16	`Target don't match project !`
17	`Fw version don't match project !`
18	`File copy error`
19	`Function not enabled`

In this section are collected all the product information you need while you are programming, or during development of an application QCL.

For programming the product you should use the Qview-5 for QCL and Qpaint-5 for the design of graphics pages. Both of these software are contained in a software package called Qworkbench and it is freely downloadable from the site Qem (in the download section).

For programming with the development software QPaint-5 it is important select the correctly the target. Select Project → Target Configuration ans select the correctly model.

This paragraph looks at how to measure an estimate of use of the product's memories. The nonvolatile memory is available to memorise the QCL program and has a capacity of 512KB.
The memory space occupied is equal to the size of the .BIN file generated by Qview. The percentage memory occupied can be viewed in the CPU panel of Qview under “Used CODE memory”, or this information can be obtained from the value of parameter “sizeapp” of the QMOS device.

The nonvolatile memory available to memorise the HMI program has a capacity of 5.5MB.
The memory space occupied is equal to the size of the .BIN file generated by Qpaint, whose value (in bytes) is viewed in parameter “memqtp” of the MMIQ2 device.

The nonvolatile data memory used to memorise retentive variables, has a capacity of 819KB.
The percentage memory occupied can be viewed in the CPU panel of Qview, under “Used RETENTIVE”, or this information can be obtained from the value of parameter “sizeret” of the QMOS device.

The volatile data memory used to memorise non ritentive variables has a capacity that depends on various factors (e.g. the HMI and QCL program sizes, the HMI screen being viewed, etc)
The general memory of the free system, available as volatile data memory, is indicated by parameter “memfree” in the MMIQ2 device.

A1-HMI-QC050

1. Informations

1.1 Release

2. Description

2.1 Ordering code

2.2 Product Label

2.2.1 Hardware Versions

2.3 Product Configuration

2.3.1 Front Panel

2.3.2 Back terminal blocks

3. Technical features

3.1 General features

3.2 Dimensions

3.3 Hole template

Types of Connectors

Tools

End caps

End cap crimping tool

Screwdrivers

Procedure

4. Electrical features and connections

4.1 Power supply

4.1.1 Connection examples

4.1.1.1 Connection examples for the 24Vdc power supply

4.2 Serial connections

Connettore USER PORT

Settaggio standard elettrico USER PORT

4.2.1 Serial connection features

4.3 Specialization card

4.3.1 Digital inputs

4.3.1.1 16 digital inputs and 2 counter inputs

4.3.2 Digital outputs

4.4 Electrical features

5. Connection examples

5.1 Digital inputs

5.2 Protected digital outputs

6. Settings, procedures and reports

6.1 PROG PORT and USER PORT baud-rate selector

6.2 Leds

6.2.1 Alerts "System Led"