Document: | mce_p1p20f-022 | ||
---|---|---|---|
Description: | Electrical Connections Manual p1p20f-022 | ||
Editor: | Omar Sbalchiero | ||
Approver | Gabriele Bazzi | ||
Link: | https://www.qem.eu/doku/doku.php/en/strumenti/qmoveplus/j1p20/p1p20f-022/mce_p1p20f-022 | ||
Language: | English | ||
Release document | Description | Note | Date |
01 | New manual | 18/09/2020 |
The copyright to this manual are reserved. For no reason, this document may be copied or reproduced in any form without the QEM permission.
QEM has no assurances or warranties regarding to content. Qem disclaims any responsibility relating to warranties of fitness for any particular purpose. The informations in this document are subject to change without notice. QEM not assumes responsibility for any error that may appear in this document
Trademarks :
The P1P20F - 022 software, controls the automation of polishing machine max 20 heads.
N.B.
MIMJ1P20Fx_BASE:Installation and Maintenance Manual |
The instrument will need to be powered to 24Vdc. Install an external fuse in series to the positive conductor +24Volt.
PIN | ID | DESCRIPTION | |
---|---|---|---|
1 | +24V | Positive power supply +24Vdc | |
2 | PE | Ground-PE | |
3 | 0V | Common power supply 0Vdc |
Nr. 1 PROG PORT → Serial with logical TTL standards for programming
Nr. 1 ETHERNET PORT
Nr. 1 CAN PORT for connection with external I/O module
ETHERNET PORT | Description |
---|---|
Connector RJ45. LED: * LINK: green led = cable connected (led on signals the cable is connected to both ends) * DATA: yellow led = data transmission (flashing led signals data transmission) |
Terminal | Symbol | Description | |
---|---|---|---|
1 | CAN H | CAN H terminal | |
2 | CAN L | CAN L terminal | |
3 | 0V | CAN common |
Name jumper | Setting | Function | |
---|---|---|---|
JP1 JP2 | JP1 | INSERTED | Termination CAN activate |
JP2 |
SW1 | Dip | DIP setting | Function |
---|---|---|---|
1 | - | - | |
2 | - | - | |
3 | - | - | |
4 | - | - | |
5 | ON | Speed selection of CANbus transmission |
|
7 | ON | ||
Baud-rate 1MB/S |
|||
6 | - | - | |
8 | - | - |
S = State | A = Action | ID |
---|---|---|
NO = Normally Open | I = Impulsive | ID = Software |
NC = Normally close | C = Continuous |
PIN | ID | DESCRIPTION | S | A | |||
---|---|---|---|---|---|---|---|
1 | 0V | Digital inputs common - Connected internally to 0Volt (PIN 3 - CN1) | |||||
2 | I1 | Emergency | - | NC | C | ||
3 | I2 | Descent Heads/Start Motors | OFF = Descent Heads ON = Start Motors | NO | C | ||
4 | I3 | Motors start | Function enabled with MP-05 = 1 o 2 parameter Start rolling activation of motors | NO | I | ||
5 | I4 | Enabled auxiliaries | Machine ready to work | NO | C | ||
6 | I5 | NE | Automatically, stop the bridge and conveyor/Reset the message “incorrect start rotating motors” | NC | C | ||
7 | I6 | Thermals | Thermals line | ||||
8 | I7 | Carter | Protections line | ||||
9 | I8 | Pressure switch | Without air |
PIN | ID | DESCRIPTION | S | A | ||||
---|---|---|---|---|---|---|---|---|
1 | 0V | Digital inputs common - Connected internally to 0Volt (PIN 3 - CN1) | ||||||
2 | I9 | Piece acquisition | Piece acquisition limit switch | NO | C | |||
3 | I10 | n.u. | - | - | - | |||
4 | I11 | n.u. | - | - | - | |||
5 | I12 | Fault inverter | Inverter alarm | NC | C | |||
6 | I13 | Forward bridge | Limit switch | With fast speed | (MP-04 = 1) | |||
7 | I14 | Backward bridge | ||||||
8 | I15 | Forward slowing bridge | With slow speed | NO | C | |||
9 | I16 | Backward slowing bridge |
S = State | ID |
---|---|
OFF | ID = Software |
ON |
PIN | ID | DESCRIPTION | S | |||
---|---|---|---|---|---|---|
1 | V+ | Input power outputs O1÷O8 (12÷28Vdc) | ||||
2 | O1 | Head | 1 | Head descent or motor start control | OFF | |
3 | O2 | 2 | ||||
4 | O3 | 3 | ||||
5 | O4 | 4 | ||||
6 | O5 | 5 | ||||
7 | O6 | 6 | ||||
8 | O7 | 7 | ||||
9 | O8 | 8 | ||||
10 | V- | Input power outputs (0Vdc) |
PIN | ID | DESCRIPTION | S | |||
---|---|---|---|---|---|---|
1 | V+ | Input power outputs O9÷O16 (12÷28Vdc) | ||||
2 | O9 | Head | 9 | Head descent or motor start control | OFF | |
3 | O10 | 10 | ||||
4 | O11 | 11 | ||||
5 | O12 | 12 | ||||
6 | O13 | 13 | ||||
7 | O14 | 14 | ||||
8 | O15 | 15 | ||||
9 | O16 | 16 | ||||
10 | V- | Input power outputs (0Vdc) |
PIN | ID | DESCRIPTION | S | |||
---|---|---|---|---|---|---|
1 | V+ | Input power outputs O17÷O24 (12÷28Vdc) | ||||
2 | O17 | Descent Heads/Start Motors | Descent heads and Start motors command OFF = Descent Heads ON = Start Motors | - | OFF | |
3 | O18 | End of start motors | Signals the completion of the cascade motor start cycle. | - | OFF | |
4 | O19 | Mix Out | Functions of the mix cycle, with activation and deactivation times settable in set-up. | - | - | |
5 | O20 | Piece alarm | Activated when the number of pieces in simultaneous operations is equal to or greater than 30 | - | - | |
6 | O21 | Conveyor direction | OFF = forward ON = backward | - | - | |
7 | O22 | Bridge direction | OFF = forward ON = backward | - | - | |
8 | O23 | Brush | The output is activated when there is at least one piece in the machine | - | - | |
9 | O24 | Water valve | - | - | - | |
10 | V- | Input power outputs (0Vdc) |
PIN | ID | DESCRIPTION | ||||
---|---|---|---|---|---|---|
1A | +24V | Encoder power supply | Conveyor | |||
2A | PHA1 | Phase A | ||||
3A | PHB1 | Phase B | ||||
4A | Z1 | n.u. | ||||
5A | 0V | ∩ | Counter inputs common - Connected internally to 0Volt (PIN 3 - CN1) Connect to PIN 5B |
|||
6A | Connect to PIN 6B | |||||
7A | Connect to PIN 7B |
PIN | ID | DESCRIPTION | ||||
---|---|---|---|---|---|---|
1B | +24V | Encoder power supply | Conveyor | |||
2B | PHA1+ | Phase A+ | ||||
3B | PHB1+ | Phase B+ | ||||
4B | Z1+ | n.u. | ||||
5B | PHA1- | Phase A- | ||||
6B | PHB1- | Phase B- | ||||
7B | Z1- | n.u. |
PIN | ID | DESCRIPTION | ||||
---|---|---|---|---|---|---|
1A | +24V | Encoder power supply | Bridge | |||
2A | PHA2 | Phase A | ||||
3A | PHB2 | Phase B | ||||
4A | Z2 | n.u. | ||||
5A | 0V | ∩ | Counter inputs common - Connected internally to 0Volt (PIN 3 - CN1) Connect to PIN 5B |
|||
6A | Connect to PIN 6B | |||||
7A | Connect to al PIN 7B |
PIN | ID | DESCRIPTION | ||||
---|---|---|---|---|---|---|
1B | +24V | Encoder power supply | Bridge | |||
2B | PHA2+ | Phase A+ | ||||
3B | PHB2+ | Phase B+ | ||||
4B | Z2+ | n.u. | ||||
5B | PHA2- | Phase A- | ||||
6B | PHB2- | Phase B- | ||||
7B | Z2- | n.u. |
PIN | ID | DESCRIPTION | |||
---|---|---|---|---|---|
1 | GAO | Common of analog outputs | |||
2 | AO1 | Output 0-10V | Inverter command | Conveyor | |
3 | AO2 | Bridge | |||
4 | GAO | Common of analog outputs |
RMC-3MB01:Installation and Maintenance Manual |
The instrument will need to be powered to 24Vdc. Install an external fuse in series to the positive conductor +24Volt.
PIN (NUMBER) | ID | DESCRIPTION | |
---|---|---|---|
1 (1) | 0V | Common power supply 0Vdc | |
2 (2) | PE | Ground-PE | |
3 (3) | +24V | Positive power supply +24Vdc |
PIN (NUMBER) | ID | DESCRIPTION | |
---|---|---|---|
1 (4) | 0V | CAN common | |
2 (5) | CAN_L | CAN low signal | |
3 (6) | CAN_H | Can high signal |
PIN (NUMBER) | ID | DESCRIPTION | |
---|---|---|---|
1 (7) | 0V | CAN common | |
2 (8) | CAN_L | CAN low signal | |
3 (9) | CAN_H | Can high signal |
SW3 | Num. Dip | Name Dip | DIP Setting | Function |
---|---|---|---|---|
1 | JP1 | ON | Termination CAN PORT | |
2 | JP2 | ON | ||
3 | JP1 | NC | ||
4 | JP2 | NC |
If you enable the terminating of the CAN port, both the DIP JP1 and JP2 must be enabled.
SW1 | Nr. DIP | Function | |
---|---|---|---|
CAN transmission speed select | 1 | ON | |
2 | ON | ||
Baud-Rate | 1Mb | ||
CAN transmission address select | 3 | ON | |
4 | OFF | ||
5 | OFF | ||
6 | OFF | ||
7 | OFF | ||
8 | OFF | ||
ID | 1 |
S = Stato | ID |
---|---|
OFF | ID = Software |
ON |
For supplying you fast service, at the lowest cost, we need your support.
Follow all instructions provided in the MIMAT manual | If the problem remains, fill out the “Request Form for assistance” on the page Contacts at www.qem.it site. Our technicians will get elements essential for the understanding of your problem. |
To provide you with an efficient service, please read and adhere to the instructions given here
It is recommended to pack the instrument with materials that are able to cushion any falls.
Use the original package: it must protect the instrument during transport. | Attach: 1. A description of the anomaly; 2. A part of the electric scheme where the equipment is inserted 3. The planning of the equipment (set up, quotas of job, parameters…). 4. Request a quote for repair; if not required, the cost will be calculated in the final balance. | A full description of the problem, will help identify and resolve your problems fast. A careful packaging will avoid further inconveniences. |