Conair Robotics S900II User Manual

U S E R G U I D E  
SYSTEM CONFIGURATION  
for S900II robots  
Software Version 1.0  
WARNING - Reliance on this Manual Could Result in Severe Bodily Injury or Death!  
This manual is out-of-date and is provided only for its technical information, data and capacities. Portions of this manual  
detailing procedures or precautions in the operation, inspection, maintenance and repair of the product forming the subject  
matter of this manual may be inadequate, inaccurate, and/or incomplete and cannot be used, followed, or relied upon.  
Contact Conair at [email protected] or 1-800-654-6661 for more current information, warnings, and materials about  
more recent product manuals containing warnings, information, precautions, and procedures that may be more adequate  
than those contained in this out-of-date manual.  
Corporate Office: 412.312.6000  
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Instant Access 24/7 (Parts and Service): 800.458.1960  
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Parts and Service: 814.437.6861  
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System Configuration  
S900II  
I – Memory  
I – MEMOR  
Y
I – 1. Accessing the memory  
After accessing ”Memory Management” by pressing [Memo_M] (programming menu), pressing the  
[M_Read] key gives access to the read (or modification) function of the user and system RAM or  
EEPROM memory (at the address of the memory box by default if necessary).  
The address of the area at which reading is to begin is given in hexadecimal (0 to F) using the numerical  
keypad and the first row of alphanumerical keys of the keyboard.  
Certain areas are directly accessible from the keyboard :  
: beginning of the PRG editing area (0 x 006 430).  
: beginning of the PLC editing area (0 x 009 430).  
: beginning of the program storage in RAM area (0 x 00B 300).  
: beginning of the MODULE where the programs are stored (0 x 800 000).  
: transfer buffer PRG E17.  
: robot serial number in RAM.  
: RAM access password.  
: beginning of parameters in RAM.  
: beginning of the faults 200 to 204 message table in RAM.  
For example : to access the beginning of the program storage area, the procedure is as follows :  
[Memo_M] –> [M_Read] –> [Address] –>  
*
The keys  
:
" [ + ] or [ – ] to change addresses 2 by 2.  
[ ]  
[ ]  
to change addresses 10 by 10 (hexadecimal).  
"
or  
" [PG DN] or [PG UP] to change addresses 100 by 100 (hexadecimal).  
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System Configuration  
S900II  
I – Memory  
* The function keys F1 to F5 :  
" [Address]  
" [Modif]  
" [Search]  
" [Print]  
to change the address.  
to change the contents of the memory area displayed (word).  
to search for a particular word (e.g. : FA1B)  
to print the memory contents from the displayed address (in order to search  
for the incorrect instructions which will be printed as ????).  
" [StopPr]  
to stop sending the memory contents to the printer.  
Note : T access the modification function, a password is necessary which remains valid as long as the  
o
user does not exit the “M_Read” procedure. Certain critical system areas cannot be read and all requests  
to modify them will be rejected.  
By default, the value given after modification request is 0 x FFFF (useful to delete words in the  
memory).  
As for the other functions, the EXIT key is used to abandon a request or to exit the procedure.  
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System Configuration  
S900II  
I – Memory  
I – 2. Memory areas  
I – 2. 1.Data saved in RAM (512 K x 8) 0 to 7 FFFF  
Address in  
Hexadecimal  
00000  
Contents  
Variables used by Philips (BOOT)  
027FF  
02800  
“Fixed” SEPRO variables, see table below for  
details of the variables  
0A4FF  
0A500  
SEPRO parameters in RAM  
0B2FF  
0B300  
PRG storage area (128 K × 8)  
2A6FF  
2A700  
SEPRO variables / work tables  
Temporary transfer area (128 K x 8)  
Piles and heaps used by the ERM kernel  
37FFF  
38000  
57FFF  
58000  
7FFFF  
02800 En Ordre = RAM contents correct indicator (GIRLAFRIDOU).  
02810 Bit_U_S = System and user bits table.  
02890 Bit_Tpo = PLC timer bits table.  
028A0 Imag_S = Images of the 255 ON/OFF outputs.  
029A0 Imag_E = Image of the 255 ON/OFF inputs.  
02AA0 Word_U = User words table (16–bit WORD).  
02AE0 Word_S = System words table (see Programming Level 2 manual for description).  
02B20 Tpo_Aut = PLC timers table.  
02B40 Compt = Counters table (standard and stacking).  
04AA0 Pile_Def = Pile of historic faults.  
04BC0 Comptime = Times basic counter.  
04BC4 Dir_RAM = PRG / PLC directory in editing area.  
04C04 Dir_PP = PRG directory in save area.  
05254 Dir_PLC = PLC directory in save area.  
05710 Mod_PP = PRG directory in the module.  
05D60 Mod_PLC = PLC directory in the module.  
0621C Tab_temps = Robot times table.  
06230 WWord_U = Double words table (32 bits).  
06430 Ram_PP = PRG editing area.  
09430 Ram_PLC = PLC editing area.  
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System Configuration  
S900II  
I – Memory  
I – 2. 2.Program addressing in memory  
The PRG and PLC programs are stored in the RAM memory, starting from the address 0xB300.  
The maximum length of a PRG is 12286 bytes ; 4096 bytes for a PLC.  
This area reserved for the permanent storage varies depending on the option 32 to 128 Kbytes.  
So that it remains compatible with previous software versions, the RAM if formatted with 0xFFFF like  
an EEPROM. This formatting is carried out when the robot is first started up (for the 128 Kbytes) or  
when the memory is totally set to 0 [ RsMEM ] (on the size provided for in the options)  
The parameters are stored in FLASHPROM at the address 0xF10E0000. An image of this address is  
stored in RAM at the address 0xA500. The length of the parameters is fixed at 2800 bytes.  
The “SAP message” file is stored in FLASHPROM at the address 0xF10E1200. Its length is fixed at  
4590 bytes.  
The programs, parameters and SAP messages are transferred via a temporary buffer of 12286 bytes  
at the address 0x38000. (This buffer can be extended to 128 Kbytes).  
I – 2. 3.Data in Flashprom (1 M x 8) F10 00000 to F10 FFFFF  
Block  
number  
Address in  
Hexadecimal  
F10 00000  
Contents  
ERM kernel + SEPRO program  
SEPRO code (1)  
1st block  
F10 0FFFF  
F10 10000  
F10 1FFFF  
F10 20000  
2nd block  
3rd block  
4th block  
5th block  
6th block  
SEPRO code (2)  
F10 3FFFF  
F10 40000  
SEPRO code (3)  
F10 5FFFF  
F10 60000  
SEPRO code (4)  
F10 7FFFF  
F10 80000  
SEPRO code (5)  
F10 9FFFF  
F10 A0000  
Reserved for extension of SEPRO code  
F10 BFFFF  
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System Configuration  
S900II  
I – Memory  
Block  
number  
Address in  
Hexadecimal  
F10 C0000  
Contents  
Messages in language 1  
Messages in language 2  
Font robot 1  
F10 CEBEF  
F10 CEBF0  
F10 DD7DF  
F10 DD7E0  
F10 DE7EF  
F10 DE7F0  
Font robot 2  
7th block  
Messages  
F10 DF7FF  
F10 DF800  
Code converter table IMM 1  
Code converter table IMM 2  
Code converter table Printer 1  
Code converter table Printer 2  
SEPRO parameters  
F10 DF9FF  
F10 DFA00  
F10 DFBFF  
F10 DFC00  
F10 DFDFF  
F10 DFE00  
F10 DFFFF  
F10 E0000  
8th block  
F10 E0DFF  
F10 E1200  
Parameters  
and SAP  
SAP messages  
F10 E2256  
F10 E2400  
Reserved for SEPRO  
F10 FFFFF  
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System Configuration  
S900II  
I – Memory  
I – 3. Specific information  
These are directly accessed using the Memory Read function followed by the request [Address] and  
a letter :  
to access the memory area containing the passwords.  
to access the memory area containing the serial number and the type of robot.  
15  
0
B2A0  
B2A2  
Password to access edition (....)  
Password to access parameters (....)  
Password to access maintenance (....)  
Password to block the modes (....)  
00  
00  
00  
04  
00  
00  
00  
00  
00  
00  
00  
D2  
00  
00  
00  
00  
00  
00  
B2A4  
B2A6  
B2A8  
B2AA  
B2AC  
B2AE  
B2B0  
B2B4  
Password to block the selection of the PRG N° to be  
executed (....)  
00  
00  
B2E0  
B2E2  
B2E4  
B2E6  
Operating time.  
Operating time in automatic.  
B2E8  
B2EA  
B2EC  
B2EE  
00 00  
04 00  
00 35  
73 98  
Robot serial number :  
E.g. 1024  
Robot type :  
E.g. 350 BB (000) –> 3503000–D –> 357398–H  
Model  
Type Specific  
0 BX  
1 BY  
2 BZ  
3 BB  
4 BC  
5 AX  
6 AY  
7 AZ  
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System Configuration  
S900II  
II – Instruction codes  
II – INSTRUCTION CODES  
II – 1. Part programs  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
ACTION  
OUTPUT  
ACT 00 (to 99) *  
A000 [oper. 16 bits] A000000C = ACT12  
Action No.  
OUT 000 (to 255) * A001 [oper. 16 bits] A0010050 = OUT080  
Output No.  
INPUT  
Normal  
IN 000 (to 255)  
IN/000 (to 255)  
TIME 001 to 999  
A002 [oper. 16 bits] A002000A = IN010  
Input No.  
INPUT  
Reverse  
A003 [oper. 16 bits] A0030020 = IN/032  
Input No.  
TIMER  
A004[oper.4bits]0[oper.11bits] A004000A = TIME010  
A004300A = TIME010  
SAP marker  
No.  
V
alue  
Marker P03  
in 1/10s  
TIME W_00 à 15  
BIT 000 (to 127)  
A004 0000 1 [oper.11bits]  
A004080A = TIMEW10  
A004080F = TIMEW15  
Word No.  
BIT  
A005 [oper. 16 bits] A0050063 = BIT 99  
Bit No.  
/ BIT 000 (to 127) A006 [oper. 16 bits] A006007D = BIT 127  
* The actions and outputs replaced by text (e.g.: part grip 1) keep the same CODOP  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
FUNCTIONS (FUNC)  
SPEED  
in % of the  
parametered speed  
VEL.X 001 to 100 B000[oper.4bits][oper.12bits] B0000062 = VEL.X 098  
VEL.Y 001 to 100 B001[oper.4bits][oper.12bits] B001000A = VEL.Y 010  
VEL.Z 001 to 100 B002[oper.4bits][oper.12bits] B0020012 = VEL.Z 018  
VEL.B 001 to 100 B003[oper.4bits][oper.12bits] B0030064 = VEL.B 100  
VEL.C 001 to 100 B004[oper.4bits][oper.12bits] B004A032 = VEL.C 050  
Marker P10  
SAP marker  
Value in  
N°  
1/10s  
VEL.X WW_*nn  
VEL.Y WW_*nn  
VEL.Z WW_*nn  
VEL.B WW_*nn  
VEL.C WW_*nn  
B050 0000 [oper.12bits]  
B051 0000 [oper.12bits]  
B052 0000 [oper.12bits]  
B053 0000 [oper.12bits]  
B054 0000 [oper.12bits]  
B0500042 = VEL.X  
B0510043 = VEL.Y  
B0520042 = VEL.Z  
B0530042 = VEL.B  
B0540043 = VEL.C  
WW066  
WW067  
WW066  
WW066  
WW067  
*(nn = 00 to 55  
Word No.  
and 66 to 67)  
ACCELERATION  
ACC.X 001 to 100 B010 [oper. 16 bits] B010000F = ACC.X 015  
in % of the parametered ACC.Y 001 to 100 B011 [oper. 16 bits] B0110064 = ACC.Y 100  
acceleration  
ACC.Z 001 to 100 B012 [oper. 16 bits] B0120044 = ACC.Z 068  
ACC.B 001 to 100 B013 [oper. 16 bits] B0130005 = ACC.B 005  
ACC.C 001 to 100 B014 [oper. 16 bits] B0140032 = ACC.C 050  
Value in %  
Master MOVEMENT  
MASTER.X  
MASTER.Y  
MASTER.Z  
MASTER.B  
MASTER.C  
B030  
B031  
B032  
B033  
B034  
IMPRECISION  
IMP.X  
IMP.Y  
IMP.Z  
IMP.B  
IMP.C  
B040  
B041  
B042  
B043  
B044  
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System Configuration  
S900II  
II – Instruction codes  
Type  
of Instruction  
Display  
Codop (hexadecimal)  
Examples  
MOTORIZED  
MOTIONS  
SLOW APPROACH  
in % of the maximum  
parametered speed  
SLA.X 001 to 100 B020 [oper. 16 bits] B0200026 = SLA.X 026  
SLA.Y 001 to 100 B021 [oper. 16 bits] B0210034 = SLA.Y 034  
SLA.Z 001 to 100 B022 [oper. 16 bits] B0220090 = SLA.Z 090  
SLA.B 001 to 100 B023 [oper. 16 bits] B0230100 = SLA.B 100  
SLA.C 001 to 100 B024 [oper. 16 bits] B0240010 = SLA.C 010  
Value in %  
LINEAR  
ABSOLUTE  
(Numerical operands)  
X.ABS_L distance C000[oper.8bits][oper.24bits] C00000000664=X.ABS.L00163.6  
Y.ABS_L distance C001[oper.8bits][oper.24bits] C001000F423F=Y.ABS.L99999.9  
Z.ABS_L distance C002[oper.8bits][oper.24bits] C00200000320=Z.ABS.L00080.0  
B.ABS_L distance C003[oper.8bits][oper.24bits] C0030000003F=B.ABS.L00006.3  
C.ABS_L distance C004[oper.8bits][oper.24bits] C0040000050C=C.ABS.L00150.0  
STACKING  
RELATIVE  
CHECKING  
X.STK_L distance C010[oper.8bits][oper.24bits] C01000008ACF=X.STK.L03453.5  
Y.STK_L distance C011[oper.8bits][oper.24bits] C01100030DE3=Y.STK.L20016.3  
Z.STK_L distance C012[oper.8bits][oper.24bits] C01200000159=Z.STK.L00034.5  
B.STK_L distance C053  
C.STK_L distance C054  
Reserved for general STKs  
Absolute distances from the header  
X.REL_L distance C020[oper.8bits][oper.24bits] C020800000A0=X.REL.L–0016.0  
Y.REL_L distance C021[oper.8bits][oper.24bits] C021000000A0=Y.REL.L–0016.0  
Z.REL_L distance C022[oper.8bits][oper.24bits] C0228001869F=Z.REL.L–9999.9  
B.REL_L distance C023[oper.8bits][oper.24bits] C02300002706=B.REL.L+0999.9  
C.REL_L distance C024[oper.8bits][oper.24bits] C0240000000A=C.REL.L+0001.0  
X.CTL_L distance C030[oper.8bits][oper.24bits] C03000000664=X.CTL.L00163.6  
Y.CTL_L distance C031[oper.8bits][oper.24bits] C031000F423F=Y.CTL.L9999.9  
Z.CTL_L distance C032[oper.8bits][oper.24bits] C03200000320=Z.CTL.L00080.0  
B.CTL_L distance C033[oper.8bits][oper.24bits] C0330000003F=B.CTL.L00006.3  
C.CTL_L distance C034[oper.8bits][oper.24bits] C0340500050C=C.CTL.L00150.0  
Marker P05  
SAP marker No.  
Distance in 1/10 mm  
ROTATING  
ABSOLUTE  
(Numerical operands)  
X.ABS_R Angle  
Y.ABS_R Angle  
Z.ABS_R Angle  
B.ABS_R Angle  
C.ABS_R Angle  
C100[oper.8bits][oper.24bits] C10000000664=X.ABS.R00163.6  
C101[oper.8bits][oper.24bits] C101000005DC=Y.ABS.R00150.0  
C102[oper.8bits][oper.24bits] C10200000320=Z.ABS.R00080.0  
C103[oper.8bits][oper.24bits] C1030000003F=B.ABS.R00006.3  
C104[oper.8bits][oper.24bits] C10400000159=C.ABS.R00034.5  
STACKING  
RELATIVE  
X.STK_R Angle  
Y.STK_R Angle  
Z.STK_R Angle  
C110[oper.8bits][oper.24bits] C11000008ACF=X.STK.R03453.5  
C111[oper.8bits][oper.24bits] C11100030DE3=Y.STK.R20016.3  
C112[oper.8bits][oper.24bits] C11200000159=Z.STK.R00034.5  
X.REL_R Angle  
Y.REL_R Angle  
Z.REL_R Angle  
B.REL_R Angle  
C120[oper.8bits][oper.24bits] C12000000384=X.REL.R+90.0  
C121[oper.8bits][oper.24bits] C12180000320=Y.REL.R–90.0  
C122[oper.8bits][oper.24bits] C12200000320=Z.REL.R+80.0  
C123[oper.8bits][oper.24bits] C12380000159=B.REL.R–34.5  
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C.REL_R Angle  
C124[oper.8bits][oper.24bits] C1240000003F=C.REL.R+06.3  
System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal) Examples  
of Instruction  
CHECKING  
X.CTL_R Angle  
Y.CTL_R Angle  
Z.CTL_R Angle  
B.CTL_R Angle  
C.CTL_R Angle  
C130[oper.8bits][oper.24bits] C13000000664=X.CTL.R00163.6  
C131[oper.8bits][oper.24bits] C131000F423F=Y.CTL.R9999.9  
C132[oper.8bits][oper.24bits] C13200000320=Z.CTL.R00080.0  
C133[oper.8bits][oper.24bits] C1330000003F=B.CTL.R00006.3  
C134[oper.8bits][oper.24bits] C1340000050C=C.CTL.R00150.0  
Angle in  
1/10 deg.  
SAP Marker No.  
TEACHING  
Teach  
C
[oper.8bits]AAAAAA C01000AAAAAA=X.STK.LTeach  
C10200AAAAAA=Z.ABS.RTeach  
Previous instruction  
Instruction code  
SAP marker No.  
MOTORIZED  
MOTIONS (cont’d)  
LINEAR  
ABSOLUTE  
(Words)  
X.ABS_L WW *nn  
Y.ABS_L WW *nn  
Z.ABS_L WW *nn  
B.ABS_L WW *nn  
C.ABS_L WW *nn  
C200 [oper. 16 bits]  
C201 [oper. 16 bits]  
C202 [oper. 16 bits]  
C203 [oper. 16 bits]  
C204 [oper. 16 bits]  
C200000A = X.ABS.L WW10  
STACKING  
RELATIVE  
X.STK_L WW *nn  
Y.STK_L WW *nn  
Z.STK_L WW *nn  
C210 [oper. 16 bits]  
C211 [oper. 16 bits]  
C212 [oper. 16 bits]  
C210000B = X.STK.L WW11  
C2200041 = X.REL.L WW65  
X.REL_L WW *nn  
Y.REL_L WW *nn  
Z.REL_L WW *nn  
B.REL_L WW *nn  
C.REL_L WW *nn  
C220 [oper. 16 bits]  
C221 [oper. 16 bits]  
C222 [oper. 16 bits]  
C223 [oper. 16 bits]  
C224 [oper. 16 bits]  
CHECKING  
ROTATING  
X.CTL_L WW *nn  
Y.CTL_L WW *nn  
Z.CTL_L WW *nn  
B.CTL_L WW *nn  
C.CTL_L WW *nn  
C230 [oper. 16 bits]  
C231 [oper. 16 bits]  
C232 [oper. 16 bits]  
C233 [oper. 16 bits]  
C234 [oper. 16 bits]  
C2300010 = X.CTL.L WW16  
ABSOLUTE  
(Words)  
X.ABS_R WW *nn  
Y.ABS_R WW *nn  
Z.ABS_R WW *nn  
B.ABS_R WW *nn  
C.ABS_R WW *nn  
C300 [oper. 16 bits]  
C301 [oper. 16 bits]  
C302 [oper. 16 bits]  
C303 [oper. 16 bits]  
C304 [oper. 16 bits]  
C300000A = X.ABS.R WW10  
C3100020 = X.STK.R WW32  
STACKING  
X.STK_R WW *nn  
Y.STK_R WW *nn  
Z.STK_R WW *nn  
C310 [oper. 16 bits]  
C311 [oper. 16 bits]  
C312 [oper. 16 bits]  
*(nn = 00 to 55 and 64 to 65)  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
RELATIVE  
X.REL_R WW *nn  
Y.REL_R WW *nn  
Z.REL_R WW *nn  
B.REL_R WW *nn  
C.REL_R WW *nn  
C320 [oper. 16 bits]  
C321 [oper. 16 bits]  
C322 [oper. 16 bits]  
C323 [oper. 16 bits]  
C324 [oper. 16 bits]  
C3200001 = X.REL.R WW01  
CHECKING  
X.CTL_R WW *nn  
Y.CTL_R WW *nn  
Z.CTL_R WW *nn  
B.CTL_R WW *nn  
C.CTL_R WW *nn  
*(nn = 00 to 55 and 64 to 65)  
C330 [oper. 16 bits]  
C331 [oper. 16 bits]  
C332 [oper. 16 bits]  
C333 [oper. 16 bits]  
C334 [oper. 16 bits]  
C3300041 = X.CTL.R WW65  
WWORD No.  
FREE  
LINE  
X. FREE  
Y. FREE  
Z. FREE  
B. FREE  
C. FREE  
C040  
C041  
C042  
C043  
C044  
LIN.  
B046  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
LINEAR  
POS_ANA  
X = POS ANA + distance  
Y = POS ANA + distance  
Z = POS ANA + distance  
B = POS ANA + distance  
C = POS ANA + distance  
C060 [oper. 32 bits]  
C061 [oper. 32 bits]  
C062 [oper. 32 bits]  
C063 [oper. 32 bits]  
C064 [oper. 32 bits]  
POS_NUM  
X = POS NUM + distance  
Y = POS NUM + distance  
Z = POS NUM + distance  
B = POS NUM + distance  
C = POS NUM + distance  
C070 [oper. 32 bits]  
C071 [oper. 32 bits]  
C072 [oper. 32 bits]  
C073 [oper. 32 bits]  
C074 [oper. 32 bits]  
VEL ANA NORMAL  
X = VEL ANA_N + distance C080 [oper. 32 bits]  
Y = VEL ANA_N + distance C081 [oper. 32 bits]  
Z = VEL ANA_N + distance C082 [oper. 32 bits]  
B = VEL ANA_N + distance C083 [oper. 32 bits]  
C = VEL ANA_N + distance C084 [oper. 32 bits]  
VEL ANA INTEGRAL X = VEL ANA_I + distance  
Y = VEL ANA_I + distance  
C090 [oper. 32 bits]  
C091 [oper. 32 bits]  
C092 [oper. 32 bits]  
C093 [oper. 32 bits]  
C094 [oper. 32 bits]  
Z = VEL ANA_I + distance  
B = VEL ANA_I + distance  
C = VEL ANA_I + distance  
VEL NUM NORMAL  
X = VEL NUM_N + distance C0A0[oper. 32 bits]  
Y = VEL NUM_N + distance C0A1 [oper. 32 bits]  
Z = VEL NUM_N + distance C0A2 [oper. 32 bits]  
B = VEL NUM_N + distance C0A3 [oper. 32 bits]  
C = VEL NUM_N + distance C0A4 [oper. 32 bits]  
VEL NUM INTEGRAL X = VEL NUM_I + distance C0B0[oper. 32 bits]  
Y = VEL NUM_I + distance C0B1 [oper. 32 bits]  
Z = VEL NUM_I + distance  
B = VEL NUM_I + distance  
C = VEL NUM_I + distance  
C0B2 [oper. 32 bits]  
C0B3 [oper. 32 bits]  
C0B4 [oper. 32 bits]  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
ROTATING  
POS_ANA  
X = POS ANA + angle  
Y = POS ANA + angle  
Z = POS ANA + angle  
B = POS ANA + angle  
C = POS ANA + angle  
C160 [oper. 32 bits]  
C161 [oper. 32 bits]  
C162 [oper. 32 bits]  
C163 [oper. 32 bits]  
C164 [oper. 32 bits]  
POS_NUM  
X = POS NUM + angle  
Y = POS NUM + angle  
Z = POS NUM + angle  
B = POS NUM + angle  
C = POS NUM + angle  
C170 [oper. 32 bits]  
C171 [oper. 32 bits]  
C172 [oper. 32 bits]  
C173 [oper. 32 bits]  
C174 [oper. 32 bits]  
VEL ANA NORMAL  
X = VEL ANA_N + angle  
Y = VEL ANA_N + angle  
Z = VEL ANA_N + angle  
B = VEL ANA_N + angle  
C = VEL ANA_N + angle  
C180 [oper. 32 bits]  
C181 [oper. 32 bits]  
C182 [oper. 32 bits]  
C183 [oper. 32 bits]  
C184 [oper. 32 bits]  
VEL ANA INTEGRAL X = VEL ANA_I + angle  
Y = VEL ANA_I + angle  
C190 [oper. 32 bits]  
C191 [oper. 32 bits]  
C192 [oper. 32 bits]  
C193 [oper. 32 bits]  
C194 [oper. 32 bits]  
Z = VEL ANA_I + angle  
B = VEL ANA_I + angle  
C = VEL ANA_I + angle  
VEL NUM NORMAL  
X = VEL NUM_N + angle  
Y = VEL NUM_N + angle  
Z = VEL NUM_N + angle  
B = VEL NUM_N + angle  
C = VEL NUM_N + angle  
C1A0[oper. 32 bits]  
C1A1 [oper. 32 bits]  
C1A2 [oper. 32 bits]  
C1A3 [oper. 32 bits]  
C1A4 [oper. 32 bits]  
VEL NUM INTEGRAL X = VEL NUM_I + angle  
Y = VEL NUM_I + angle  
C1B0[oper. 32 bits]  
C1B1 [oper. 32 bits]  
C1B2 [oper. 32 bits]  
C1B3 [oper. 32 bits]  
C1B4 [oper. 32 bits]  
Z = VEL NUM_I + angle  
B = VEL NUM_I + angle  
C = VEL NUM_I + angle  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal) Examples  
of Instruction  
TEST, CONDITIONS  
. 1 Operand  
on Bit  
IF BIT 000 (to 127)  
IF/BIT 000 (to 127)  
IF OUT 000 (to 255)  
IF/OUT 000 (to 255)  
IF IN/000 (to 255)  
IF IN 000 (to 255)  
IF/IN 000 (to 255)  
IF TIM 00 (to 15)  
IF/TIM 00 (to 15)  
D000 [oper. 16 bits]  
D010 [oper. 16 bits]  
D001 [oper. 16 bits]  
D011 [oper. 16 bits]  
D002 [oper. 16 bits]  
D003 [oper. 16 bits]  
D013 [oper. 16 bits]  
D004 [oper. 16 bits]  
D014 [oper. 16 bits]  
on Output  
on Input  
on Timer  
Operand No.  
. 2 Operands  
* on Word (16 bits)  
–> 1st Operand  
IF WRD 000 (to 4095)  
IF/WRD 000 (to 4095)  
D300 [oper. 16 bits]  
D310 [oper. 16 bits]  
with decimal value  
= 0000 (to 9999)  
D400 [oper. 16 bits]  
D401 [oper. 16 bits]  
D402 [oper. 16 bits]  
D403 [oper. 16 bits]  
> = 0000 (to 9999)  
< = 0000 (to 9999)  
AND 0000 (to 9999)  
Note : If the decimal  
value cannot exceed  
9,999, the hexadecimal  
value goes up to 65,535.  
with hexadecimal value = 0000 (to FFFF)  
> = 0000 (to FFFF)  
D410 [oper. 16 bits]  
D411 [oper. 16 bits]  
D412 [oper. 16 bits]  
D413 [oper. 16 bits]  
< = 0000 (to FFFF)  
AND 0000 (to FFFF)  
with Counter  
= CNT 00 (to 15)  
D420 [oper. 16 bits]  
D421 [oper. 16 bits]  
D422 [oper. 16 bits]  
D423 [oper. 16 bits]  
> = CNT 00 (to 15)  
< =CNT 00 (to 15)  
AND CNT 00 (to 15)  
with Inputs (modulo 16) =IN 000 (to 112)  
> =IN 000 (to 112)  
D430 [oper. 16 bits]  
D431 [oper. 16 bits]  
D432 [oper. 16 bits]  
D433 [oper. 16 bits]  
< =IN 000 (to 112)  
AND IN 000 (to 112)  
with Word (16 bits)  
= WRD 0000 (to 4095)  
D440 [oper. 16 bits]  
> = WRD 0000 (to 4095) D441 [oper. 16 bits]  
< = WRD 0000 (to 4095) D442 [oper. 16 bits]  
AND WRD 0000(to 4095) D443 [oper. 16 bits]  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal) Examples  
of Instruction  
* on WWord (32 bits)  
IF WWRD 000 (to 127) D320 [oper. 16 bits]  
–> 1st Operand  
IF/WWRD 000 (to 127) D330 [oper. 16 bits]  
with decimal value  
= 00000000 (to 09999999)  
D500 [oper. 32 bits]  
> = 00000000 (to 09999999) D501 [oper. 32 bits]  
< = 00000000 (to 09999999) D502 [oper. 32 bits]  
AND 00000000 (to 09999999) D503 [oper. 32 bits]  
Note : If the decimal  
value cannot exceed  
9,999,999, the hexadeci  
-
with hexadecimal value  
with Counter  
=
00000000 (to FFFFFFFF)  
D510 [oper. 32 bits]  
mal value goes up to  
4,294,967,295.  
> = 00000000 (to FFFFFFFF) D511 [oper. 32 bits]  
< = 00000000 (to FFFFFFFF) D512 [oper. 32 bits]  
AND00000000 (to FFFFFFFF) D513 [oper. 32 bits]  
= CNT 00 (to 15)  
D520 [oper. 16 bits]  
D521 [oper. 16 bits]  
D522 [oper. 16 bits]  
D523 [oper. 16 bits]  
> = CNT 00 (to 15)  
< = CNT 00 (to 15)  
AND CNT 00 (to 15)  
with Inputs (modulo 16) = IN 000 (to 112)  
> = IN 000 (to 112)  
D530 [oper. 16 bits]  
D531 [oper. 16 bits]  
D532 [oper. 16 bits]  
D533 [oper. 16 bits]  
< = IN 000 (to 112)  
AND IN 000 (to 112)  
with Word (16 bits)  
= WRD 0000 (to 4095)  
D540 [oper. 16 bits]  
> = WRD 0000 (to 4095) D541 [oper. 16 bits]  
< = WRD 0000 (to 4095) D542 [oper. 16 bits]  
AND WRD 0000(to 4095) D543 [oper. 16 bits]  
with WWord (32 bits)  
= WWRD 000 (to 127)  
D550 [oper. 16 bits]  
> = WWRD 000 (to 127) D551 [oper. 16 bits]  
< = WWRD 000 (to 127) D552 [oper. 16 bits]  
AND WWRD 000(to 127) D553 [oper. 16 bits]  
* on Counter  
–> 1st Operand  
IF CNT 00 (to 15)  
IF/CNT 00 (to 15)  
D340 [oper. 16 bits]  
D350 [oper. 16 bits]  
with decimal value  
= 0000 (to 9999)  
D900 [oper. 16 bits]  
D901 [oper. 16 bits]  
D902 [oper. 16 bits]  
D903 [oper. 16 bits]  
> = 0000 (to 9999)  
< = 0000 (to 9999)  
AND 0000 (to 9999)  
with hexadecimal value = 0000 (to FFFF)  
> = 0000 (to FFFF)  
D910 [oper. 16 bits]  
D911 [oper. 16 bits]  
D912 [oper. 16 bits]  
D913 [oper. 16 bits]  
< = 0000 (to FFFF)  
AND 0000 (to FFFF)  
with Counter  
= CNT 00 (to 15)  
> = CNT 00 (to 15)  
< = CNT 00 (to 15)  
D920 [oper. 16 bits]  
D921 [oper. 16 bits]  
D922 [oper. 16 bits]  
AND CNT 00 (to 15)  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
with Inputs (modulo 16) = IN 000 (to 112)  
> = IN 000 (to 112)  
D930 [oper. 16 bits]  
D931 [oper. 16 bits]  
D932 [oper. 16 bits]  
D933 [oper. 16 bits]  
< = IN 000 (to 112)  
AND IN 000 (to 112)  
with Word (16 bits)  
= WRD 0000 (to 4095)  
D940 [oper. 16 bits]  
> = WRD 0000 (to 4095) D941 [oper. 16 bits]  
< = WRD 0000 (to 4095) D942 [oper. 16 bits]  
AND WRD 0000(to 4095) D943 [oper. 16 bits]  
INITIALIZATION  
. 1 Operand  
* on Bit –> 1  
on Bit –> 0  
SET.BIT 032 (to 127)  
RST.BIT 032 (to 127)  
D015 [oper. 16 bits]  
D017 [oper. 16 bits]  
* on Output –> 1  
on Output –> 0  
SET.OUT 000 (to 127)  
RST.OUT 000 (to 127)  
D016 [oper. 16 bits]  
D018 [oper. 16 bits]  
* on Word –> 0  
RST.WRD 0000 (to 4095) D019 [oper. 16 bits]  
Variable number  
* on WWord –> 0  
* on Counter –> 0  
RST.WWRD 00 (to 63)  
D01D [oper. 16 bits]  
Variable number  
RST.CNT 0000 (to 0015) D01A 00 [oper. 8 bits]  
Counter number  
RST.CNT 0041 (to 9980) D01A[oper. 8 bits] [oper. 8 bits]  
PRG No. SP No.  
. 2 Operands  
* on Word (16 bits)  
–> 1st Operand  
SET.WRD 0000 (to 4095) D600 [oper. 16 bits]  
with decimal value  
= 0000 (to 9999)  
+ 0000 (to 9999)  
– 0000 (to 9999)  
x 0000 (to 9999)  
/ 0000 (to 9999)  
AND 0000 (to 9999)  
OR 0000 (to 9999)  
D700 [oper. 16 bits]  
D701 [oper. 16 bits]  
D702 [oper. 16 bits]  
D703 [oper. 16 bits]  
D704 [oper. 16 bits]  
D705 [oper. 16 bits]  
D706 [oper. 16 bits]  
with hexadecimal value = 0000 (to FFFF)  
+ 0000 (to FFFF)  
D710 [oper. 16 bits]  
D711 [oper. 16 bits]  
D712 [oper. 16 bits]  
D713 [oper. 16 bits]  
D714 [oper. 16 bits]  
D715 [oper. 16 bits]  
D716 [oper. 16 bits]  
– 0000 (to FFFF)  
x 0000 (to FFFF)  
/ 0000 (to FFFF)  
AND 0000 (to FFFF)  
OR 0000 (to FFFF)  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
with Counter  
= CNT 00 (to 15)  
+ CNT 00 (to 15)  
– CNT 00 (to 15)  
x CNT 00 (to 15)  
/ CNT00 (to 15)  
AND CNT 00 (to 15)  
OR CNT 00 (to 15)  
D720 [oper. 16 bits]  
D721 [oper. 16 bits]  
D722 [oper. 16 bits]  
D723 [oper. 16 bits]  
D724 [oper. 16 bits]  
D725 [oper. 16 bits]  
D726 [oper. 16 bits]  
with Inputs (modulo 16) = IN 000 (to 112)  
+ IN 000 (to 112)  
D730 [oper. 16 bits]  
D731 [oper. 16 bits]  
D732 [oper. 16 bits]  
D733 [oper. 16 bits]  
D734 [oper. 16 bits]  
D735 [oper. 16 bits]  
D736 [oper. 16 bits]  
– IN 000 (to 112)  
x IN 000 (to 112)  
/ IN 000 (to 112)  
AND IN 000 (to 112)  
OR IN 000 (to 112)  
with Word (16 bits)  
= WRD 0000 (to 4095)  
+ WRD 0000 (to 4095)  
– WRD 0000 (to 4095)  
x WRD 0000 (to 4095)  
/ WRD 0000 (to 4095)  
D740 [oper. 16 bits]  
D741 [oper. 16 bits]  
D742 [oper. 16 bits]  
D743 [oper. 16 bits]  
D744 [oper. 16 bits]  
AND WRD 0000 (to 4095)D745 [oper. 16 bits]  
OR WRD 0000 (to 4095) D746 [oper. 16 bits]  
* on WWord (32 bits)  
–> 1st Operand  
SET.WWRD 000 (to 127) D620 [oper. 16 bits]  
with decimal value  
= 00000000 (to 09999999)  
+ 00000000 (to 09999999)  
00000000 (to 09999999)  
x 00000000 (to 09999999)  
/ 00000000 (to 09999999)  
D800 [oper. 32 bits]  
D801 [oper. 32 bits]  
D802 [oper. 32 bits]  
D803 [oper. 32 bits]  
D804 [oper. 32 bits]  
AND 00000000 (to 09999999) D805 [oper. 32 bits]  
OR 00000000 (to 09999999) D806 [oper. 32 bits]  
with hexadecimal value = 00000000 (to FFFFFFFF)  
+ 00000000 (to FFFFFFFF)  
D810 [oper. 32 bits]  
D811 [oper. 32 bits]  
D812 [oper. 32 bits]  
D813 [oper. 32 bits]  
D814 [oper. 32 bits]  
00000000 (to FFFFFFFF)  
x 00000000 (to FFFFFFFF)  
/ 00000000 (to FFFFFFFF)  
AND 00000000 (to FFFFFFFF)D815 [oper. 32 bits]  
OR 00000000 (to FFFFFFFF) D816 [oper. 32 bits]  
with Counter  
= CNT 00 (to 15)  
+ CNT 00 (to 15)  
– CNT 00 (to 15)  
x CNT 00 (to 15)  
/ CNT 00 (to 15)  
AND CNT 00 (to 15)  
OR CNT 00 (to 15)  
D820 [oper. 16 bits]  
D821 [oper. 16 bits]  
D822 [oper. 16 bits]  
D823 [oper. 16 bits]  
D824 [oper. 16 bits]  
D825 [oper. 16 bits]  
D826 [oper. 16 bits]  
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System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
with Inputs (modulo 16) = IN *nn  
D830 [oper. 16 bits]  
D831 [oper. 16 bits]  
D832 [oper. 16 bits]  
D833 [oper. 16 bits]  
D834 [oper. 16 bits]  
D835 [oper. 16 bits]  
D836 [oper. 16 bits]  
+ IN *nn  
– IN *nn  
*nn = 00 to 112  
and 136 to 240  
x IN *nn  
/ IN *nn  
AND IN *nn  
OR IN *nn  
with Word (16 bits)  
= WRD 0000 (to 4095)  
+ WRD 0000 (to 4095)  
– WRD 0000 (to 4095)  
x WRD 0000 (to 4095)  
/ WRD 0000 (to 4095)  
D840 [oper. 16 bits]  
D841 [oper. 16 bits]  
D842 [oper. 16 bits]  
D843 [oper. 16 bits]  
D844 [oper. 16 bits]  
AND WRD 0000 (to 4095) D845 [oper. 16 bits]  
OR WRD 0000 (to 4095) D846 [oper. 16 bits]  
with WWord (32 bits)  
= WWRD *nn and 200–202 D850 [oper. 16 bits]  
+ WWRD *nn  
– WWRD *nn  
x WWRD *nn  
/ WWRD *nn  
AND WWRD*nn  
OR WWRD *nn  
D851 [oper. 16 bits]  
D852 [oper. 16 bits]  
D853 [oper. 16 bits]  
D854 [oper. 16 bits]  
D855 [oper. 16 bits]  
D856 [oper. 16 bits]  
*nn = 0 to 127  
* on Counter  
SET.CNT 0000 (to 0015) D640 [oper. 8 bits]  
Standard counter  
–> 1st Operand  
SET.CNT 0041 (to 9980) D640[oper. 8 bits] [oper. 8 bits] Stacking counter  
PRG No. SP No.  
with decimal value  
= 0000 (to 9999)  
+ 0000 (to 9999)  
– 0000 (to 9999)  
x 0000 (to 9999)  
/ 0000 (to 9999)  
AND 0000 (to 9999)  
OR 0000 (to 9999)  
DA00 [oper. 16 bits]  
DA01 [oper. 16 bits]  
DA02 [oper. 16 bits]  
DA03 [oper. 16 bits]  
DA04 [oper. 16 bits]  
DA05 [oper. 16 bits]  
DA06 [oper. 16 bits]  
with hexadecimal value = 0000 (to FFFF)  
+ 0000 (to FFFF)  
DA10 [oper. 16 bits]  
DA11 [oper. 16 bits]  
DA12 [oper. 16 bits]  
DA13 [oper. 16 bits]  
DA14 [oper. 16 bits]  
DA15 [oper. 16 bits]  
DA16 [oper. 16 bits]  
– 0000 (to FFFF)  
x 0000 (to FFFF)  
/ 0000 (to FFFF)  
AND 0000 (to FFFF)  
OR 0000 (to FFFF)  
with Counter  
= CNT 00 (to 15)  
+ CNT 00 (to 15)  
– CNT 00 (to 15)  
x CNT 00 (to 15)  
/ CNT 00 (to 15)  
AND CNT 00 (to 15)  
D920 [oper. 16 bits]  
D921 [oper. 16 bits]  
D922 [oper. 16 bits]  
D922 [oper. 16 bits]  
D922 [oper. 16 bits]  
D923 [oper. 16 bits]  
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OR CNT 00 (to 15)  
D923 [oper. 16 bits]  
System Configuration  
S900II  
II – Instruction codes  
Type  
Display  
Codop (hexadecimal)  
Examples  
of Instruction  
with Inputs (modulo 16) = IN 000 (to 112)  
+ IN 000 (to 112)  
DA30 [oper. 16 bits]  
DA31 [oper. 16 bits]  
DA32 [oper. 16 bits]  
DA33 [oper. 16 bits]  
DA34 [oper. 16 bits]  
DA35 [oper. 16 bits]  
DA36 [oper. 16 bits]  
– IN 000 (to 112)  
x IN 000 (to 112)  
/ IN 000 (to 112)  
AND IN 000 (to 112)  
OR IN 000 (to 112)  
with Word (16 bits)  
= WRD 0000 (to 4095)  
+ WRD 0000 (to 4095)  
– WRD0000 (to 4095)  
x WRD 0000 (to 4095)  
/ WRD 0000 (to 4095)  
DA40 [oper. 16 bits]  
DA41 [oper. 16 bits]  
DA42 [oper. 16 bits]  
DA43 [oper. 16 bits]  
DA44 [oper. 16 bits]  
AND WRD 0000 (to 4095)DA45 [oper. 16 bits]  
OR WRD 0000 (to 4095) DA46 [oper. 16 bits]  
–> + 1  
–> – 1  
INC.CNT 0000 (to 0015) D01B 00 [oper. 8 bits]  
Standard No.  
INC.CNT 0041 (to 9980) D01B[oper. 8 bits] [oper. 8 bits]  
SP No.  
PRG No.  
DEC.CNT 0000 (to 0015) D01C 00 [oper. 8 bits]  
Standard No.  
DEC.CNT 0041 (to 9980) D01C[oper. 8 bits] [oper. 8 bits]  
PRG No.  
SP No.  
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System Configuration  
S900II  
II – Instruction codes  
II – 2. PLC programs  
Type  
Display  
PLC xx  
Codop (hexadecimal)  
of Instruction  
PROG.PLC xx header (num)  
FC [oper. 16 bits]  
PLC No.  
TEST CONDITION  
INITIALISATION  
IF ...  
See part programs  
See part programs  
SET ...  
RST ...  
INC ...  
DEC ...  
COMPARISON xxxx > = xxxx  
TIMER xx VALUE xxxx  
CMP 0000 (to 0015) VAL 0000 (to FFFF) D020 [oper. 16 bits] [oper. 16 bits]  
0000 (to 0015)  
Counter No.  
Value  
TIMER 00 (to 15) VAL 0000 (to 9999) D021 [oper. 16 bits] [oper. 16 bits]  
Pre–selection No.  
Timer No.  
AND FUNCTION on BIT  
AND FUNCTION on OUTPUT  
AND FUNCTION on BIT  
OR FUNCTION on OUTPUT  
AND BIT 000 (to 127)  
AND OUT 000 (to 127)  
OR BIT 000 (to 127)  
OR OUT 000 (to 127)  
D022 [oper. 16 bits]  
D023 [oper. 16 bits]  
D024 [oper. 16 bits]  
D025 [oper. 16 bits]  
Variables No.  
END OF PROGRAM  
END  
F5 [oper. 16 bits]  
PLC No.  
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System Configuration  
S900II  
III – Program codes  
III – PROGRAM CODES  
III – 1. Declaration of programs, subroutines and PLCs  
" Header codes of PRG, SP,..., SR, PLC  
G F9b xn  
= Main program  
G b = 0, standard PRG (encoded on 15 bits)  
b = 1 , SAP PRG (encoded on 15 bits)  
G FAnn  
G FBnn  
G FCnn  
G FEnn  
= STD, STK.. // subroutine (see stacking header)  
= Return subroutine (see home return header)  
= PLC program  
= FREE  
" STEP TRANSITION codes  
G EC00 + Step number 0 to 999  
G E.g. : EC12 => Step number 18 (decimal)  
G E.g. : ED00 => Step number 256 (decimal)  
" END of PRG, SP..., SR, PLC codes  
G F0nn  
G F1nn  
G F2nn  
G F3nn  
G F4nn  
G F8nn  
G F5nn  
G F7nn  
= End of ”standard” SP nn.  
= End of ”standard” stacking SP nn.  
= End of ”general” stacking SP nn.  
= End of SP // nn.  
= End of simple or total SR nn.  
= End of simple or total SR with return to step 0 of PRG 00.  
= End of PLC nn.  
= End of main program (PRG) nn.  
" PRG architecture in the memory area  
previous program  
F9 nn  
PRG (text)  
F7 nn  
FA xx  
SP  
SR  
PRG nn  
F1 xx  
FB pp  
F4 pp  
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F9 mm  
following PRG  
System Configuration  
S900II  
III – Program codes  
III – 2. Subroutine and program calls  
" SPECIFIC codes for SP, SR, PLC as an instruction  
G E000 [oper. 16 bits] :  
Standard SP  
SP nn Lmm (nn = 01 to 40) (mm = 00 to 99)  
Regular Stacking SP SP nn D Lmm (or I Lmm) (nn = 41 to 60) (mm = 00 to 99)  
General Stacking SP SP nn D Lmm (or I Lmm) (nn = 61 to 80) (mm = 00 to 99)  
Parallel SP  
SP nn L00 (nn = 81 to 99)  
The operand contains :  
. high order word –> the LABEL number  
–> bit 0 x 8000 at 0 indicates DIRECT  
–> bit 0 x 8000 at 1 indicates REVERSE  
. low order word –> the SP number.  
E.g. : E000 0103 –> SP 03 L01  
E.g. : E000 8229 –> SP 41 I L02  
G E100 [oper. 16 bits] : PLC prog. – Display : PLC 00 (to 99)  
G E500 [oper. 16 bits] : Home Return – Display : SR 01 (to 99)  
" Return label  
G E600 [oper. 16 bits] : Labels ”L” for SP – Display : L00 to L99  
G E700 [oper. 16 bits] : Labels ”R” for SR – Display : R00 to R99  
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System Configuration  
S900II  
IV – Variable addressing  
IV – VARIABLE ADDRESSING  
IV – 1. Output – OUT –  
Accessible in read and write.  
Number  
(logical address)  
Physical  
address  
Structures / Functions  
not used  
OUT 000  
OUT 255  
28A0  
299F  
2 A1D  
Forcing  
(Extended monitor)  
OUT 125  
Continuous status  
(See Param. No 14)  
IV – 2. Input – IN –  
Accessible in read.  
Number  
(logical address)  
Physical  
address  
Structures / Functions  
not used  
IN 000  
29A0  
2A9F  
2 9AB  
IN 255  
IN 01  
1
IV – 3. User and system bits – BIT –  
Each address corresponds to an 8 bit structure in memory.  
not used  
0281x  
Forcing  
(Extended monitor)  
BIT 0  
x = bit number in hexadecimal (e.g.: Bit 31, address = 0282F).  
Only the low order word is used.  
– System bits accessible in Read – No. 0 to 30.  
– System bits accessible in Read and Write – No. 31 to 33.  
– User bits accessible in Read and Write – No. 34 to 127.  
For the definition of these bits, see the Programming Level 2 manual, paragraph I3.  
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System Configuration  
S900II  
IV – Variable addressing  
IV – 4. 16 bits user and system words – WRD –  
Number  
(logical address)  
Physical  
address  
Structures / Functions  
32 user Words (read/write) with no predefined functions.  
WRD 0000  
2AA0  
B15  
0
WRD 0031  
WRD 0032  
2ADF  
2AE0  
16 bit structure available  
32 system Words (read only). For the definition of these  
words, see the Programming Level 2 manual, paragraph  
I4  
WRD 0063  
WRD 0064  
2B1E  
2B20  
16 user Words (read/write) supporting the PLC timers  
(TIM 00 to TIM 15).  
WRD 0079  
WRD 0080  
2B3F  
2B40  
16 user Words (read/write) supporting the standard  
counters (CNT 00 to CNT 15).  
WRD 0095  
WRD 0096  
2B5F  
2B60  
4000 user Words (read/write) supporting the stacking  
subroutine counters (CNT 0041 to CNT 9980).  
WRD 4096  
3A9F  
IV – 5. 32 bit user and system words – WWRD –  
Number  
(logical address)  
Physical  
address  
Structures / Functions  
64 user Words (read/write) with no predefined functions.  
WWRD 000  
6230  
b31  
0
WWRD 063  
WWRD 064  
6327  
6328  
32 bit structure available  
64 system Words (read only). For the definition of these  
words, see the Programming Level 2 manual, paragraph  
I5  
WWRD 127  
642C  
Specific words  
WWRD 0116  
WWRD 0117  
6400  
6404  
Values for calculating the automatic anticipated restart.  
Values for calculating the automatic anticipated restart.  
See chapter VI – page 28.  
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System Configuration  
S900II  
IV – Variable addressing  
IV – 6. Counters  
Each address corresponds to a 16 bit structure in the memory.  
WRD0088  
b15  
b0  
2 B4x  
CNT0008  
. values from 0000 to 9999 in decimal  
. values from 0000 to FFFF in hexadecimal  
x = bit number in hexadecimal (e.g.: CNT 0008, address = 2 B50).  
– Standard counters – No. 0000 to 0015 (0x2B40 to 0x2B5E).  
– Regular stacking counters – No. 0041 to 9960 (as from 0x2 B60).  
– General stacking counters – No 0061 to 9980.  
For the definition of these counters, see the Programming Level 2 manual, paragraph I6.  
IV – 7. Timers  
IV – 7. 1.End of timer for part program  
Accessible in read and write.  
Number  
(logical address)  
Physical  
address  
Structures / Functions  
TIM00  
TIM01  
TIM02  
TIM03  
TIM04  
TIM05  
TIM06  
TIM07  
TIM08  
TIM09  
TIM10  
TIM11  
TIM12  
TIM13  
TIM14  
TIM15  
2 890  
2 891  
2 892  
2 893  
2 894  
2 895  
2 896  
2 897  
2 898  
2 899  
2 89A  
2 89B  
2 89C  
2 89D  
2 89E  
2 89F  
2 897  
TIM07  
not used  
Only the low order word is used  
IV – 7. 2.PLC timer  
TIM00 to 15 = WRD 0064 to 0079 see chapter IV – 4.  
Accessible in reaDdoawnnldoawd frriotme.Www.Somanuals.com. All Manuals Search And Download.  
System Configuration  
S900II  
V – CPU fault signalling  
V – CPU FAULT SIGNALLING  
V – 1. Flashing Leds  
These signal a CAN network fault by displaying the problem number in binary on the LEDs at the  
bottom of the CPU, and the node number (if concerned) on the LEDs at the top if the pendant is not  
functioning.  
1 = CAN driver initialization fault  
3
0
2 = Write problem in Flashprom  
5 = A double (or more) node on the network (code + node)  
6 = Problem during the CONNECTION phase (code + node)  
7 = Problem during the PREPARATION phase (code + node)  
8 = Problem during the START phase (code + node)  
9
= The network does not correspond to the parametered configuration (code + node)  
10 = “Node–guarding” problem (code + node). Communication fault with the pendant ;  
this may be due to the CAN speed being too great for the length of the cable used, or a bad  
line adaptation, or interference, etc.  
11 = CPU emission problem  
12 = CPU reception problem  
13 = Topology fault of the remote I/O  
15 = EMERGENCY message received (code + node). Problem on the pendant or with  
communication between the pendant and the CPU (see 10)  
Note : In the event of a NODE GUARDING fault, fault 15 may appear alternately with fault 10.  
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System Configuration  
S900II  
V – CPU fault signalling  
V – 2. Fixed Leds  
These signal a fault when powering up by giving the problem number in binary on the LEDs at the  
bottom of the CPU, and the node number (if concerned) on the LEDs at the top if the pendant is not  
functioning.  
1 = Problem with recovering the parameters in Flashprom  
2 = Problem during the opening of the PC link  
3 = Problem during the opening of the EUROMAP 17 link  
4 = Problem during the opening of the printer 2 link  
5 = Problem during the opening of the CAN link  
6 = Message not present in Flashprom  
7 = Problem with the CPU’s RAM  
8 = Problem with the Flashprom’s checksum  
9 = Problem with the axes declared and the axes’ boards present  
10 = The configuration has changed  
11 = Problem during the initialization of the axes’ boards by the CPU  
15 = Communication problem with the pendant during powering up. The CAN speed  
may be changed by transfering the parameters with the PC at 2400 Bds, slave = 1.  
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System Configuration  
S900II  
VI – IMM Anticipated Restart  
VI – IMM ANTICIPATED RESTART  
" Parameter 174 : type of IMM anticipated restart  
G 0 : no anticipated restart  
G 1 : anticipated restart  
G 2 : programmed delay anticipated restart –> WWRD 63 programmed in step 0.  
" Parameter 175 : basic value of the auto–adaptative delay and double the minimum value of  
the programmed delay  
" Parameter 176 : minimum value of the auto–adaptative delay (safety margin)  
Anticipated restart effective if :  
G offset wait is not valid (parameter 451)  
G and if the robot is in automatic  
G and if Kv equals 100 %  
in the case of  
restart with  
programmed  
delay  
G and if there is a SET WWRD63 in step 0 of the program  
parameter 175  
G and if the value of WWRD63 is greater than or equal to  
2
VCM  
programmed  
VCM  
BHM  
Tr = WWRD 116  
P176  
Tm = WWRD 117  
MO  
Tr = robot disengaging time in 1/10 s (WWRD 116)  
Tm = IMM motion start time in 1/10 s (WWRD 117)  
Rt = theoretical delay = Tr – Tm + P176 or 0 if the result is negative  
Rapp = Applied delay  
yes  
Rapp > Rt  
no  
Rapp = Rt  
Rapp = 66% of (Rt – Rapp)  
There is a fault if mould open (or OPA) goes to 0 and BHM = 0  
D_5 : MOVEMENT OUTSIDE CAMS(if there is no anticipated restart running)  
D_32: PREMATURE MACHINE RESTART(if there is an anticipated restart running)  
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System Configuration  
S900II  
VI – IMM Anticipated Restart  
" Safety circuit principle.  
A hard–wired circuit controls the respective positions of the moving mould (“MO” = Mould Open  
signal) and of the robot (“ZBD” = Arm Free Area / “ZHM” = Outside Mould Area signal).  
The output of this hard–wired circuit (”MO” + ”ZBD” + ”ZHM” = ”KA301”) activates a power relay  
(KA301 contactor).  
During normal operation, the KA301 relay is activated. The KA301 contacts are used in series with  
the SBD relay contact from the interface board, which therefore means that the software safety that  
manages the SBD relay with a hard–wired safety device is doubled.  
When there is a fault (robot position not conform compared to the moving mould position), the KA301  
relay falls, which in turn activates the control relay KA16A, which is self–powered and which stops  
the KA301 relay becoming active (the blocking of KA301 prohibits the IMM cycle).  
You must power down the robot cabinet to cancel this fault.  
FOR 32 OUTPUT BOARDS : as OUTxx active at power up  
ANCILLARY “ARM  
FREE” SAFETY  
“KA301” relay  
CONTROL  
ANCILLARY “ARM  
FREE” SAFETY  
“KA301” relay  
CONTROL  
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System Configuration  
S900II  
VI – IMM Anticipated Restart  
IF IN XX  
SET WORD 62 = 200  
Until a parameter for the control input for the anticipated restart safety circuit is integrated into the  
software, this input must be monitored and a fault must be generated using the monitoring PLC.  
RELANCE ANTICIPEE NON CONFORME : in French  
ANTICIPATED RESTART NOT CONFORM : in English  
REARME ANTICIPADO NO CONFORME : in Spanish  
VORAUSB. NEUSTART FEHLERHAFT : in German  
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