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1Week © Vocational Training Council, Hong Kong.
│ Lecture 4 │
Advanced PLC Programming
EEC3420 Industrial ControlDepartment of Electrical Engineering
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Learning Objectives
Understand the structure of Mitsubishi FX series PLC
Understand the advanced programming techniques of PLC
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Advanced PLC Programming
nowadays PLCs have many features normally found in larger controllers like
floating-point mathematics,
the ability to process 32-bit data words and
a wide range of fully-configurable communications options
advanced PLC programming is often machine specific
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Mitsubishi PLC FX series
model part number of Mitsubishi PLC FX series
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Hardware Details for Mitsubishi PLC
Inputs
Device Mnemonic: X
Purpose: Representation of physical inputs to the PLC.
Available forms: NO and NC contacts only.
Devices numbered in: Octal, i.e. X0 to X7, X10 to X17, etc.
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Hardware Details for Mitsubishi PLC
Outputs
Device Mnemonic: Y
Purpose: Representation of physical outputs from the PLC.
Available forms: NO and NC contacts and output coils.
Devices numbered in: Octal, i.e. Y0 toY7, Y10 to Y17, etc
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Hardware Details for Mitsubishi PLC
Auxiliary Relays
Device Mnemonic: M
Purpose: Internal programmable controller status flags.
Available forms: NO and NC contacts and output coils.
Devices numbered in: Decimal, i.e. M0 to M9, M10 to M19, etc.
Further uses: General stable state auxiliary relays (GAR)
Battery backed/latched auxiliary relays (BBR)
Special diagnostic auxiliary relays
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Hardware Details for Mitsubishi PLC
Other Relays
General Stable State Auxiliary Relays
Battery Backed/Latched Auxiliary Relays
Special diagnostic auxiliary relays
State Relays
Pointers
Interrupt Pointers
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Hardware Details for Mitsubishi PLC
Data
Constant K
Input Interrupt s
Timer Interrupts
Counter Interrupts
Constant H
Data Registers
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Hardware Details for Mitsubishi PLC
Data
General Use Registers
File Registers
Index Registers
Refer to the programmer’s manual for the use of these registers
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Special Instructions of Mitsubishi PLC
Applied Instructions are the ‘specialist’ instructions of the FX family of PLC’s, format is shown below.
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Representation of the operands
Bit devices, individual and grouped
Word devices
Interpreting word data
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Bit Devices
Devices such as X, Y, M and S are bit devices
Bit devices can be grouped together to form bigger representations of data, 8 consecutive bit devices are referred to as a byte
16 consecutive bit devices are referred to as a word
32 consecutive bit devices are a double word
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Grouped Bit Devices
the form KnP is used to denote a group of devices
P represents the head address of the bit devices to be used
the Kn portion of the statement identifies the range of devices enclosed
each “n” digit actual represents 4 bit devices
“n” can be a number from the range 0 to 8
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Word Devices
Word devices such as T, C, D, V and Z can store data about a particular event or action within the PLC
these devices are 16 bit registers
pairs of consecutive data registers or combined V and Z registers may form 32-bit devices
PLC’s can read the word data as: A pure bit pattern; A decimal number; A hexadecimal number;or as a BCD (Binary Coded Decimal) number
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Signed binary representation
Signed binary representation of a group of 16 devices
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Hexadecimal Representation
Hexadecimal representation of a group of 16 devices
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BCD Representation
BCD (Binary Coded Decimal) representation of a group of 16 devices
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Scientific Notation
• Scientific Notation use two devices to store information about a number
• one device contains a data string of the actual characters in the number (called the mantissa)
• while the second device contains information about the number of decimal places used in the number (called the exponent)
• Scientific Notation limits are;
• 9999 x 1035 ~ 9999 x 10-41
• -9999x 1035 ~ -9999 x 10-41
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Scientific Notation• Scientific Notation can be obtained by using the BCD,
or EBCD in FX2N, instruction (FNC 18 or FNC 118) with the float flag M8023 set ON
• In this situation floating point format numbers are converted by the BCD instruction into Scientific Notation
• The mantissa and exponent are stored in consecutive data registers
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Scientific Notation
Scientific format cannot be used directly in calculations, but it does provide an ideal method of displaying the data on a monitoring interface
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Floating Point Format
• extends the abilities and ranges provided by Scientific Notation with the ability to represent fractional portions of whole numbers
• a greater degree of accuracy
• Decimal data can be converted in to floating point by using the FLT, float instruction (FNC 49)
• When this same instruction is used with the float flag M8023 set ON, floating point numbers can be converted back to decimal
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Floating Point Format
• occupy two consecutive data registers (or 32 bits)
• cannot be directly monitored, as they are stored in a special format recommended by the I.E.E.E (Institute of Electrical and Electronic Engineers)
• have both mantissa and exponents
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Program Flow-Functions 00 to 09 • CJ - Conditional jump FNC 00
• CALL - Call Subroutine FNC 01
• SRET - Subroutine Return FNC 02
• IRET - Interrupt Return FNC 03
• EI - Enable Interrupt FNC 04
• DI - Disable Interrupt FNC 05
• FEND - First End FNC 06
• WDT - Watchdog Timer FNC 07
• FOR - Start of a For/Next Loop FNC 08
• NEXT - End a For/Next Loop FNC 09
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Move And Compare - Functions 10 to 19
• CMP - Compare FNC 10
• ZCP - Zone Compare FNC 11
• MOV - Move FNC 12
• SMOV - Shift Move FNC 13
• CML - Compliment FNC 14
• BMOV - Block Move FNC 15
• FMOV - Fill Move FNC 16
• XCH - Exchange FNC 17
• BCD - Binary Coded Decimal FNC 18
• BIN - Binary FNC 19
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Arithmetic And Logical Operations -Functions 20 to 29
• ADD - Addition FNC 20
• SUB - Subtraction FNC 21
• MUL - Multiplication FNC 22
• DIV - Division FNC 23
• INC - Increment FNC 24
• DEC - Decrement FNC 25
• WAND - Word AND FNC 26
• WOR - Word OR FNC 27
• WXOR - Word Exclusive OR FNC 28
• NEG - Negation FNC 29
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Rotation And Shift - Functions 30 to 39
• ROR - Rotation Right FNC 30
• ROL - Rotation Left FNC 31
• RCR - Rotation Right with Carry FNC 32
• RCL - Rotation Left with Carry FNC 33
• SFTR - (Bit) Shift Right FNC 34
• SFTL - (Bit) Shift Left FNC 35
• WSFR - Word Shift Right FNC 36
• WSFL - Word Shift Left FNC 37
• SFWR - Shift Register Write FNC 38
• SFRD - Shift Register Read FNC 39
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Data Operation - Functions 40 to 49• ZRST - Zone Reset FNC 40
• DECO - Decode FNC 41
• ENCO - Encode FNC 42
• SUM - The Sum Of Active Bits FNC 43
• BON - Check Specified Bit Status FNC 44
• MEAN - Mean FNC 45
• ANS - (Timed) Annunciator Set FNC 46
• ANR - Annunciator Reset FNC 47
• SQR - Square Root FNC 48
• FLT - Float, (Floating Point) FNC 49
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High Speed Processing - Functions 50 to 59
• REF - Refresh FNC 50
• REFF - Refresh and filter adjust FNC 51
• MTR - Input matrix FNC 52
• HSCS - High speed counter set FNC 53
• HSCR - High speed counter reset FNC 54
• HSZ - High speed counter
• zone compare FNC 55
• SPD - Speed detect FNC 56
• PLSY - Pulse Y output FNC 57
• PWM - Pulse width modulation FNC 58
• PLSR - Ramp Pulse output FNC 59
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Handy Instructions - Functions 60 to 69
• IST - Initial State FNC 60
• SER - Search FNC 61
• ABSD - Absolute Drum FNC 62
• INCD - Incremental Drum FNC 63
• TTMR - Teaching Timer FNC 64
• STMR - Special Timer - Definable FNC 65
• ALT - Alternate State FNC 66
• RAMP - Ramp - Variable Value FNC 67
• ROTC - Rotary Table Control FNC 68
• SORT - Sort Data FNC 69
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External FX I/O Devices - Functions 70 to 79
• TKY - Ten Key Input FNC 70
• HKY - Hexadecimal Input FNC 71
• DSW - Digital Switch (Thumbwheel input) FNC 72
• SEGD - Seven Segment Decoder FNC 73
• SEGL - Seven Segment with Latch FNC 74
• ARWS - Arrow Switch FNC 75
• ASC - ASCII Code FNC 76
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External FX I/O Devices - Functions 70 to 79
• ASC - ASCII Code FNC 76
• PR- ‘Print’ To A Display FNC 77
• FROM - Read From A Special
• Function Block FNC 78
• TO - Write To A Special Function Block FNC 79
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External FX Serial Devices - Functions 80 to 89
• RS - RS Communications FNC 80
• PRUN - FX2-40AP Parallel Run FNC 81
• ASCI - Hexadecimal to ASCII FNC 82
• HEX - ASCII to Hexadecimal FNC 83
• CCD - Check Code FNC 84
• VRRD - FX-8AV Volume Read FNC 85
• VRSD - FX-8AV Volume Scale FNC 86
• - Not Available FNC 87
• PID - PID Control Loop FNC 88
• - Not Available FNC 89
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Floating Point 1 & 2 - Functions 110 to 129
• ECMP - Float Compare FNC 110
• EZCP - Float Zone Compare FNC 111
• - Not Available FNC 112 to 117
• EBCD - Float to Scientific FNC 118
• EBIN - Scientific to Float FNC 119
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Floating Point 1 & 2 - Functions 110 to 129
Floating Point 2
• EADD - Float Add FNC 120
• ESUB - Float Subtract FNC 121
• EMUL - Float Multiplication FNC 122
• EDIV - Float Division FNC 123
• - Not Available FNC 124 to 126
• ESQR - Float Square Root FNC 127
• - Not Available FNC 128
• INT - Float to Integer FNC 129
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Trigonometry - FNC 130 to FNC 139
• SIN - Sine FNC 130
• COS - Cosine FNC 131
• TAN - Tangent FNC 132
• - Not Available FNC 133 to 139
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Data Operations 2 - FNC 140 to FNC 149
• - Not Available FNC 140 to 146
• SWAP - Float to Scientific FNC 147
• - Not Available FNC 148 to 149
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Positioning Control - FNC 150 to FNC 159
• - Not Available FNC 150 to 154
• ABS - Absolute current value read FNC 155
• ZRN - Zero return FNC 156
• PLSV - Pulse V FNC 157
• DRVI - Drive to increment FNC 158
• DRVA - Drive to absolute FNC 159
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Real Time Clock Control - FNC 160 to FNC 169
• TCMP - Time Compare FNC 160
• TZCP - Time Zone Compare FNC 161
• TADD - Time Add FNC 162
• TSUB - Time Subtract FNC 163
• - Not Available FNC 164 to 165
• TRD - Read RTC data FNC 166
• TWR - Set RTC data FNC 167
• - Not Available FNC 168
• HOUR - Hour meter FNC 169
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Gray Codes - FNC 170 to FNC 179
• GRY - Decimal to Gray Code FNC 170
• GBIN - Gray Code to Decimal FNC 171
• - Not Available FNC 172 to 175
• RD3A - Read FX0N-3A FNC 176
• WR3A - Write to FX0N-3A FNC 177
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Additional Functions - FNC 180 to FNC 189
• EXTR - External ROM Function FNC 180
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Inline Comparisons - FNC 220 to FNC 249
• LD - LoaD compare FNC 224 to 230
• AND - AND compare FNC 232 to 238
• OR - OR compare FNC 240 to 246
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Applications of the Special Instructions
• Alternating ON/OFF States
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Applications of the Special Instructions
Multiple-LED flasher
• the LED group of 0, 2, 4 & 6 and LED group 1, 3, 5 & 7 will lit alternatively every second.
• the operand K2Y0 means two groups of 4-bits starting from Y0, that is, Y0 ~ Y7
• H55 = 0101 0101 B, HAA = 1010 1010 B
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Applications of the Special Instructions
Using Battery Backed Devices
• The status of the latched devices (in this example FX M coils M600 and M601) is retained during the power down.
• Once the power is restored the battery backed M coils latch themselves in again, i.e. the load M600 is used to drive M600
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Applications of the Special Instructions
Indexing Through Multiple Display Data Values
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Applications of the Special Instructions
Indexing Through Multiple Display Data Values
• The contents of 10 counters are displayed in a sequential operation.
• The paging action occurs every time the input X11 is received.
• What actually happens is that the index register Z is continually incremented until it equals 9.
• When this happens the comparison instruction drives M1 ON which in turn resets the current value of Z to 0 (zero).
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Applications of the Special InstructionsReading And Manipulating Thumbwheel Data
• BIN instructions read in the data values• the first value, the single digit stored in D1, is combined with the
second data value D2 (containing 2 digits)• by the SMOV instruction, the contents of D1 is written to the third
digit of the contents of D2, the result is then stored back into D2
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Applications of the Special InstructionsMeasuring a High Speed Pulse
Input – a 1 ms timer pulse measurement
• utilizes two interrupt routines to capture a pulse width and measure it with a 1ms timer
• the 1 ms timer T246 is driven when interrupt I001 is activated.
• when the input to X1 is removed the current value of the timer T246 is moved to data register D0 by interrupt program I100
• the operation complete flag M0 is then set ON, X10 acts as an enable/disable flag
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Summary of Advanced PLC Programming
․ PLC systems offer sophisticated instructions to manipulate data of various kinds and perform complicated program logic flow
․ For advanced PLC programming, it is often machine specific.
․ Applied Instructions are the ‘specialist’ instructions of the FX family of PLC’s, they allow the user to perform complex data manipulations, mathematical operations while still being very easy to program and monitor.