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Instructions for AcraDyne models including: Serial, IO, Gen IV Controller Serial Port, Gen IV Controller, Controller Serial Port, Controller, Serial Port

Gen IV Serial Instructions

Manuals - Aimco Global

[PDF] Gen IV Controller Serial Port Instructions - Aimco-Global

Jun 26, 2024 · • # P 1 BB TTT.T AAAA PPPP 0000 J CR NULL*. ○ #: Message Start. ○ P: PSet. ▫ PSet('1' – '9') for PSets 1-9, ('A' – 'Z') for PSets 10-35. ○ 1 ...


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LIT-MAN177 SERIAL 06-26-24 
From the main menu, select Controller.

Gen IV Controller Serial Port Instructions
Select Serial.

Select IO.

Port Mode: The following modes are available: · Serial Output: A
serial data string will be Output in the following format after each rundown:
 # P 1 BB TTT.T AAAA 0000 0000 J (Notice the decimal point next to the least significant T)
 P: Parameter set ("1" ­ "9") for PSets 1-9, ("A" ­ "W") for PSets 10-32.
 B: Job count  T: Torque result  A: Angle result
 @=overall pass, H=low torque, I (eye)=high torque, J=low angle, K=high angle, G=fault during fastening
· Barcode Reader: See the Gen IV Controller User Manual for information on barcode setup.
· Serial Output and Barcode Reader: Select from dropdown and configure per hardware requirements
· Open Protocol: Select from dropdown and configure per hardware requirements
· PFCS: Select from dropdown and configure per hardware requirements

· PI Line Control: This is customer specific. Please reference PI Line Control Document on AIMCO Website/Product Manuals.
· Tohnichi Wrench: Supports connecting a Tohnichi wrench/R-CM receiver to the controller. See "Tohnichi Wrench Details" on page 4
Baud: Serial ports can be configured for different baud rates available.
· 75, 110, 300, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200
Data Bits / Stop Bits / Parity: Configure per hardware requirements Serial Output Formats: · Standard · Standard with PSet · UEC Serial Modified · Profibus · UEC Serial · CVS String Output Followed by Null Control Character: Adds a one-byte NULL character to the end of the serial string. Needed by systems that use the NULL character to signify the end of the string. See following section for more information. Send PSet Change: · Sends a serial string any time the
PSet is changed. String is in the form `%%CAN8X%%%%CAN4YNAC%%' where X is the previous pset and Y is the new pset. See following section for more information. Send Job Completed: · Sends a serial string containing "Job Completed" whenever a job has been completed.
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Serial Output Format Options
Standard Output Format: · O P HHHHH LLLLL TTTTT P HHHHH LLLLL AAAAA CR CR NULL*
 O: Overall Pass/Fail
 `P' = Pass, `F' = Fail
 P: Torque Pass/Fail
 * `P' = Pass, `F' = Fail
 HHHHH: Torque High Limit
 Units selected in the PSet X10
 LLLLL: Torque Low Limit
 * Units selected in the PSet X10
 TTTTT: Torque Result
 Units selected in the PSet X10
 P: Angle Pass/Fail
 `P' = Pass, `F' = Fail
 HHHHH: Angle High Limit
 Degrees
 LLLLL: Angle Low Limit
 Degrees
 AAAAA: Angle Result
 Degrees
 CR: Carriage return control character  CR: Carriage return control character  NULL*: Null control character (*if option is selected)
Standard Output with Carriage Return, Line Feed and PSet Format: · O P HHHHH LLLLL TTTTT P HHHHH LLLLL AAAAA 1 CR LF NULL*
 O: Overall Pass/Fail
 `P' = Pass, `F' = Fail
 P: Torque Pass/Fail
 `P' = Pass, `F' = Fail
 HHHHH: Torque High Limit
 Units selected in the PSet X10
 LLLLL: Torque Low Limit
 Units selected in the PSet X10
 TTTTT: Torque Result
 Units selected in the PSet X10
 P: Angle Pass/Fail
 `P' = Pass, `F' = Fail
 HHHHH: Angle High Limit
 Degrees
 LLLLL: Angle Low Limit
 Degrees
 AAAAA: Angle Result
 Degrees
 1: PSet
 PSet(`1' ­ `9') for PSets 1-9, (`A' ­ `Z') for PSets 10-35
 CR: Carriage return control character  LF: Line feed control character  NULL*: Null control character (*if option is selected)
UEC Serial Modified Format (matches some Gen4 earlier versions): · # P 1 BB TTT.T AAAA PPPP 0000 J CR NULL*
 #: Message Start  P: PSet
 PSet(`1' ­ `9') for PSets 1-9, (`A' ­ `Z') for PSets 10-35
 1: Spindle Number (Always 1)  BB: Job Bolt Count
 Total number of accepts during the Job
 TTT.T: Torque Result
 Units selected in the PSet
 AAAA: Angle Result
 Degrees
 PPPP: Pulse Count  0000  J: Judgment
 `@' = Overall Pass, `H' = Low Torque, `I' = High
Torque, `J' = Low Angle, `K = High Angle, `G' = Fault During Fastening  CR: Carriage return control character  NULL*: Null control character (*if option is selected)
Profibus Output Format: · %CAN 1 O P HHHHH LLLLL TTTTT P HHHHH LLLLL AAAAA NAC%
CR LF NULL*  %CAN: Message Start  1: PSet
 * PSet(`1' ­ `9') for PSets 1-9, (`A' ­ `Z') for PSets 10-35

 O: Overall Pass/Fail
 * `P' = Pass, `F' = Fail
 P: Torque Pass/Fail
 * `P' = Pass, `F' = Fail
 HHHHH: Torque High Limit
 * Units selected in the PSet X10
 LLLLL: Torque Low Limit
 * Units selected in the PSet X10
 TTTTT: Torque Result
 * Units selected in the PSet X10
 P: Angle Pass/Fail
 `P' = Pass, `F' = Fail
 HHHHH: Angle High Limit
 Degrees
 LLLLL: Angle Low Limit
 Degrees
 AAAAA: Angle Result
 Degrees  NAC%: Message End
 CR: Carriage return control character  LF: Line feed control character  NULL*: Null control character (*if option is selected)
UEC Serial Format (matches UEC 4800 and Gen3): · # 1 P BB TTT.T AAAA PPPP 0000 J CR NULL*
 #: Message Start  1: Spindle Number (Always 1)  P: PSet
 * PSet(`1' ­ `9') for PSets 1-9, (`A' ­ `Z') for PSets 10-35
 BB: Job Bolt Count
 * Total number of accepts during the Job
 TTT.T: Torque Result
 * Units selected in the PSet
 AAAA: Angle Result
 * Degrees
 PPPP: Pulse Count
 L = Low Pulse Count, M = High Pulse Count
 0000  J: Judgment
 * `@' = Overall Pass, `H' = Low Torque, `I' = High
Torque, `J' = Low Angle, `K = High Angle, `G' = Fault During Fastening, '*' = None of these conditions apply  CR: Carriage return control character  NULL*: Null control character (*if option is selected)
`CSV String' · S01,JB01, TTT.T, S, AAA.A, S, O, MM/DD/YYYY HH:MM:SS,
VVV<CR><LF>  S01: Spindle number  JB01: Job number  TTT.T: Torque  S: Torque Status (A = OK, H = High, L = Low)  AAA.A: Angle  S: Angle Status (A = OK, H = High, L = Low)  O: Overall Status (A = OK, R = NOK)  MM: Month  DD: Day  YYYY: Year  HH: Hour  MM: Minute  SS: Second  VVV: 32 character barcode ID  <CR>: Carriage Return  <LF>: Line Feed
`Output Followed by NULL Character'. · The NULL characters can be seen by using PUTTY and
connecting to the controller in `Raw' mode. Then set logging to log all output and check the log to see the NULL characters.
`Send PSet Change'. · PSets up to 9 match the number, 10-35 are A-Z, greater than
35 is `*':  %%CAN8X%%%%CAN4YNAC%%  X: Last PSet  Y: New PSet

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Tohnichi Wrench Details
Serial Port Mode "Tohnichi Wrench"
The Gen IV iBC controller supports connecting a Tohnichi wrench/R-CM receiver. The R-CM receiver connects to the Gen IV controller via the serial port with a straight through serial cable (do not use a null modem cable). The R-CM receiver data format needs to be configured as "STD" (the default setting). Once configured the controller will monitor the serial port for a string from the R-CM receiver and record the click as a manual install.
The manual install record will contain the following data from the wrench:
· Torque value · Torque units (the following units are supported
Nm, Kgcm, Kgm, Lbin, Lbft) · 7 digit ID (will be recorded as the tool S/N) · Angle when supported by the wrench · Low, High, or OK status in some configurations

Using the controller parameter set to evaluate the click results:
Setting all the limits in the R-CM receiver to 0 (default) will cause it to report the values without any status. In this setup, the controller will evaluate the value(s) against the current parameter set limits and generate the correct status. Then report the status back to the R-CM receiver and wrench.
Using the R-CM receiver to evaluate the click results:
Setting limits in the R-CM receiver will cause it to report the status to the wrench and the controller. In this setup the controller parameter set settings are ignored.

Wrench Configuration The controller supports torque and torque/angle wrenches and both modes of operation. The four possible wrench/configurations from the R-CM are as follows:
1. Torque only wrench with limits programmed in the R-CM · R-CM output format would be as follows:

When over upper limit H N (HI-NG) When below lower limit L N (LO-NG)

R E , 0 0 1 , 5 0 . 0 , n m SPSPSP , O K , 1 2 3 4 5 6 A , 1 9 / 0 9 / 2 4 , 2 3 : 5 9 : 3 0 CR LF

Header 3-digits ID Torque

Torque Space

0 - 999 50.0  50.0 Unit

100  100.

Judgment Result

7-digits ID Alphanumeric

Date YY/MM/DD

Time HH:MM:SS

Delimiter

· The controller will use the status from the record

2. Torque only wrench with no limits programmed in the R-CM · R-CM output format would be as follows:

R E , 0 0 1 , 5 0 . 0 , n m SPSPSP , 1 2 3 4 5 6 A , 1 9 / 0 9 / 2 4 , 2 3 : 5 9 : 3 0 CR LF

Header 3-digits ID Torque

Torque Space

0 - 999 50.0  50.0 Unit

100  100.

7-digits ID Alphanumeric

Date YY/MM/DD

Time HH:MM:SS

Delimiter

· The controller will evaluate the torque value against the current parameter set low and high torque limits and set the results accordingly
· The controller will tell the R-CM module the Low, High, or OK status

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3. Torque and angle wrench with limits programmed in the R-CM · R-CM output format would be as follows:

Torque Result OK OK OK
High NG High NG High NG Low NG Low NG Low NG

Angle Result OK
HIGH NG LOW NG
OK HIGH NG LOW NG
OK HIGH NG LOW NG

Judgment OO OH OL HO HH HL LO LH LL

R E , 0 0 1 , 5 0 . 0 , n m SPSPSP , 0 4 5 ,d e g , O O , 1 2 3 4 5 6 A , 1 9 / 0 9 / 2 4 , 2 3 : 5 9 : 3 0 CR LF

Header 3-digits ID Torque

Torque Space Angle

Angle

0 - 999 50.0  50.0 Unit

45  045 Unit

100  100.

120  120

Result 7-digits ID Alphanumeric

Date YY/MM/DD

Time HH:MM:SS

Delimiter

· The controller will use the status from the record.

4. Torque and angle wrench with no limits programmed in the R-CM · R-CM output format would be as follows:

R E , 0 0 1 , 5 0 . 0 , n m SPSPSP , 0 4 5 ,d e g , 1 2 3 4 5 6 A , 1 9 / 0 9 / 2 4 , 2 3 : 5 9 : 3 0 CR LF

Header 3-digits ID Torque

Torque Space Angle

Angle

0 - 999 50.0  50.0 Unit

45  045 Unit

100  100.

120  120

7-digits ID Alphanumeric

Date YY/MM/DD

Time HH:MM:SS

Delimiter

· The controller will evaluate the torque and angle values against the current parameter set low and high torque and angle limits and set the results accordingly
· The controller will tell the R-CM module the Low/High torque, Low/High angle or OK status.

Using an iBC as a Standalone Tohnichi Monitor
A standard iBC can be configured as a Tohnichi wrench monitor with or without the monitoring parameter sets programmed into the controller. In the "Controller Type Setup" screen there is an option to select the "Tool Type" between AcraDyne or Tohnichi. Setting it to Tohnichi will disable the use of an AcraDyne tool and force the serial port option to Tohnichi Wrench.

This will also enable the parameter set menu where the user will be able to create a torque or torque and angle monitor strategy.
If the "Limited to Tool ID" parameter" is populated, rundown results only from the Tohnichi wrench with the matching ID will be evaluated and recorded.

If the R-CM has limits programmed, the controller parameter sets will be ignored.

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Toll Free: 1-800-852-1368

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LIT-MAN177_SERIAL 06-26-24
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