Micro Controller Board CPM2B The CPM2B series programmable controllers offer the powerful features and advanced technology of Omron's brick style micros in a board package. These controllers give you advantages in programming flexibility, reduced development cost and significant space savings compared to other control solutions. D D D D D D D D D D D 32-point and 40-point I/O CPU boards, expand to 168 I/O Peripheral communications port standard 20 kHz high-speed counter input Two, 10 kHz pulse outputs for motion applications Removable terminals simplify installation LED indicators show status Synchronized pulse control matches input devices to control devices for positioning Relay or Transistor outputs Analog I/O expansion boards available RS-232C port, backup battery and real-time clock are available on standard models Custom options include number/type of I/O, communication interfaces, package size and layout, real-time clock and connector types; contact your Omron representative A--70 Micro Controller Board CPM2B Basic Configuration Up to three Expansion I/O boards can be connected to a CPM2B CPU board. Connecting cable CPM2B-CN601 is supplied with each Expansion I/O board. Standoffs and mounting screws are included with all boards. Order the mounting bracket separately. CPU Board with 32 I/O points (Relay outputs) CPU Board with 32 I/O points (Transistor outputs) CPU Board with 40 I/O points (Relay outputs) Expansion I/O board with 32 I/O points (Relay outputs) Expansion I/O board with 32 I/O points (Transistor outputs) Expansion I/O board with 40 I/O points (Relay outputs) Expansion I/O board with 64 I/O points (Transistor outputs) Connecting cable Mounting bracket CPM2B-ATT01 Ordering Information J CPU BOARDS Stock Note: Shaded models are normally stocked. Appearance Input points Output points Input type Output type RS-232C port, real-time clock and battery backup Part number 16 16 24 VDC Relay -- CPM2B-32C1DR-D Yes CPM2B-32C2DR-D -- CPM2B-32C1DT-D Yes CPM2B-32C2DT-D No CPM2B-32C1D1T-D12 Yes CPM2B-32C2D1T-D12 Transistor (NPN) 12 VDC 24 24 VDC Relay CPM2B-40C2DR-D Micro Controller Board CPM2B A--71 J EXPANSION I/O BOARDS Stock Note: Shaded models are normally stocked. Appearance Input points Output points Input type Output type Part number 16 16 24 VDC Relay CPM2B-32EDR Transistor (NPN) CPM2B-32EDT 12 VDC 24 16 32 32 24 VDC CPM2B-32ED1T Relay CPM2B-40EDR Transistor CPM2B-64EDT J DEDICATED I/O BOARDS Stock Note: Shaded models are normally stocked. Appearance Inputs Outputs Part number 2 1 CPM2B-MAD21 (See Note) 4 2 CPM2B-MAD42 (See Note) 6 3 CPM2B-MAD63 (See Note) Note: The MAD Analog I/O boards cannot connect to the 12 VDC CPUs. J ACCESSORIES Stock Note: Shaded models are normally stocked. Appearance A--72 Product Description Part number Expansion I/O cable Connects Expansion I/O board to CPU or another Expansion I/O board CPM2B-CN601 Mounting bracket Mounts CPM2B boards CPM2B-ATT01 Backup battery Replacement battery for CPM2B 3G2A9-BAT08 Expansion memory unit Uploads and downloads program and setup memory areas to and from controller CPM1-EMU01-V1 EEPROM EEPROM chip, 256 kbits EEPROM-CPM1-EMU01 Micro Controller Board CPM2B J I/O CONNECTORS Stock Note: Shaded models are normally stocked. Product Description Part number Sockets/connectors Discrete-wire IDC connector, 2-row socket (AWG 24 wire) XG5M-2032-N Discrete-wire IDC connector, 2-row socket (AWG 26 to 28) XG5M-2035-N Discrete-wire IDC connector, 2-row socket (full cover) XG5S-2012 Discrete-wire IDC connector, 2-row socket (partial cover) XG5S-1001 Flat cable connector, MIL-type socket (connector housing) XG4M-2030 Flat cable connector, MIL type socket (strain relief) XG4T-2004 Socket and sstrain a relief e e J SERIAL COMMUNICATIONS ADAPTERS AND CABLES Stock Note: Shaded models are normally stocked. Product Description Cable length Part number RS-232C adapter p Converts CPM2B peripheral port to RS-232C; DIN mount -- CPM2C-CIF01-V1 Converts peripheral port to RS-232C; DIN mount 0.2 m (0.66 ft) CPM1-CIF01 Program download cable to 9 pin computer serial port 3.3 m (10.8 ft) CQM1-CIF02 Converts mini-peripheral port to RS-422/RS-485 and RS-232C; DIN mount -- CPM2C-CIF11 Converts mini-peripheral port to adapter RS-422A, DIN mount -- CQM1H-CIF12 Program g download cable from computer p to Omron DB9 serial i l portt 2 m (6.6 ( ft)) C200HS-CN220-EU Communication cable to other Omron devices with DB9 i l portt serial 0.5 m (1.64 ft) C200H-CN510-EU 2 m (6.6 ( ft)) C200H-CN320-EU RS-422/RS-485 adapter RS-232C cable CBL-202* CBL-804* 5 m (16.4 ft) C200H-CN520-EU Program download cable to 9 pin serial port g p computer p p 2 m (6.6 ft)) ( C200H-CN229-EU Mini-peripheral port adapter cable 5 cm CBL-202* Peripheral port cable CS1W-CN114 * Available in Canada only. J PERIPHERAL DEVICES Stock Note: Shaded models are normally stocked. Product Description Part number Programming console Handheld programmer with 2 m cable attached; connects directly to peripheral port CQM1-PRO01-E Handheld programmer with backlit display; order cable separately below. C200H-PRO27-E Connects C200H programmer to peripheral port; 2 m cable C200H-CN222 Connects C200H programmer to peripheral port; 4 m cable C200H-CN422 Connecting g cable J SUPPORT SOFTWARE Stock Note: Shaded models are normally stocked. Product Functions Part number CX-Programmer Jr. Windows-based programming software; reduced instruction set and networking commands. WS02-CXPC1-EJ-V_._ CX-Programmer Full programming software package programs micro, small and larger controllers. WS02-CXPC1-E-V_._ Micro Controller Board CPM2B A--73 J MANUALS Product Description Part number Operation manual CPM2B Programmable Controller Operation manual W371 Programming manual CPM1/CPM1A/CPM2A/CPM2C/SRMI(-V2) programming manual W353 J ROTARY ENCODERS FOR HIGH-SPEED COUNTER INPUTS Stock Note: Shaded models are normally stocked. Product Description Part number Incremental encoders Differential phase mode, 5 kHz count frequency, NPN open collector E6B2-CWZ6C Pulse plus direction mode, 20 kHz count frequency E6A2-CS5C Specifications J GENERAL SPECIFICATIONS CPU Boards Item Expansion I/O Boards With relay outputs With transistor outputs With relay outputs With transistor outputs Model CPM2B-32CjDR-D CPM2B-40C2DR-D CPM2B-32CjDT-D CPM2B-32CjDT1-D12 CPM2B-32EDR CPM2B-40EDR CPM2B-32EDT CPM2B-32ED1T CPM2B-64EDT Supply voltage 24 VDC (Allowable range: 20.4 to 26.4 VDC) 12 VDC (Allowable range: 10.8 to 13.2 VDC) Supplied from CPU board Power consumption 20 W max. -- Inrush current 20 A max. -- Insulation resistance 20 M min. (at 500 VDC) between the external DC terminals and non-current carrying metal parts Dielectric strength 1,000 VAC 50/60 Hz for 1 min between the external DC terminals and non-current carrying metal parts Noise immunity Conforms to IEC6100-4-4; 2 kV (power lines) Vibration resistance 10 to 57 Hz, 0.075-mm amplitude, 57 to 150 Hz, acceleration: 9.8 m/s2 in X, Y, and Z directions for 80 minutes each (8 minutes of vibration x 10 repetitions= total time 80 minutes) Shock resistance 147 m/s2 three times each in X, Y, and Z directions Ambient temperature Operating: 0 to 55C Storage: --20 to 75C (excluding the battery) Ambient humidity Operating: 10% to 90% (with no condensation) Ambient atmosphere Operating: Must be free from corrosive gas I/O configuration Inputs: Connector Outputs: Terminal block Power supply retention time 2 ms min. A--74 Micro Controller Board Inputs: Connector Outputs: Connector CPM2B Inputs: Connector Outputs: Terminal block Inputs: Connector Outputs: Connector J CHARACTERISTICS CPU Boards Item With relay outputs With transistor outputs Control method Stored program method I/O control method Cyclic scan with direct output; immediate refreshing can be performed with IORF(97) Programming language Ladder diagram Instruction length 1 step per instruction, 1 to 5 words per instruction Instructions Execution time Basic instructions 14 Special instructions 105 instructions, 185 variations Basic instructions 0.64 s (LD instruction) Special instructions 7.8 s (MOV instruction) Program capacity Max. I/O / capacity p y 4,096 words CPU Board only 32 points/40 points With Expansion I/O Boards 168 points max. Input bits IR 00000 to IR 00915 (words not used for input bits can be used for work bits) Output bits IR 01000 to IR 01915 (words not used for output bits can be used for work bits) Work bits 928 bits: IR 02000 to IR 04915 and IR 20000 to IR 22715 Special bits (SR area) 448 bits: SR 22800 to SR 25515 Temporary bits (TR area) 8 bits (TR0 to TR7) Holding bits (HR area) 320 bits: HR 0000 to HR 1915 (Words HR 00 to HR 19) Auxiliary bits (AR area) 384 bits: AR 0000 to AR 2315 (Words AR 00 to AR 23) Link bits (LR area) 256 bits: LR 0000 to LR 1515 (Words LR 00 to LR 15) Timers/Counters 256 timers/counters (TIM/CNT 000 to TIM/CNT 255) 1-ms timers: TMHH(--) 10-ms timers: TIMH(15) 100-ms timers: TIM 1-s/10-s timers: TIML(--) Decrementing counters: CNT Reversible counters: CNTR(12) Data memory y Read/Write 2,048 words (DM 0000 to DM 2047) The Error Log is contained in DM 2000 to DM 2021 Read-only 456 words (DM 6144 to DM 6599) PLC setup 56 words (DM 6600 to DM 6655) Interrupt p processing i External interrupts 4 (also used for external interrupt inputs in counter mode and quick-response inputs) Interval timer interrupts 1 (Scheduled Interrupt Mode or Single Interrupt Mode) High-speed g p counter t High-speed counter 1 (20 kHz single-phase or 5 kHz two-phase (linear count method)) Counter interrupt Interrupt inputs (Counter mode) Counter interrupts Pulse output 1 (set value comparison or set-value range comparison) 4 inputs (also used for interrupt inputs and quick-response inputs) 4 (also used for the external interrupt inputs and quick-response inputs) 2 points with no acceleration/deceleration, 10 Hz to 10 kHz each, and no direction control 1 point with trapezoidal acceleration/deceleration, 10 Hz to 10 kHz, and direction control 2 points with variable duty-ratio outputs (Pulse outputs can be used with transistor outputs only, they cannot be used with relay outputs) Synchronized pulse control 1 point: A pulse output can be created by combining the high-speed counter with pulse outputs and multiplying the frequency of the input pulses from the high-speed counter by a fixed factor (This output is possible with transistor outputs only, it cannot be used with relay outputs) Quick-response inputs 4 points (Min. input pulse width: 50 s max.) (Also used for interrupt inputs and for interrupt inputs in counter mode) Input time constant (ON response time = OFF response time) Can be set for all input points (1 ms, 2 ms, 3 ms, 5 ms, 10 ms, 20 ms, 40 ms, or 80 ms) This constant, however, is fixed to 1 ms for 40 and 64 I/O-point Expansion I/O Boards (This table continues on the next page.) Micro Controller Board CPM2B A--75 Characteristics -- continued from previous page CPU Boards Item With relay outputs Clock function With transistor outputs Shows the year, month, day of the week, day, hour, minute, and second (Backed up by the battery) (The clock function is available only in CPU Boards equipped with a clock) Communications functions Built-in mini-peripheral port: Supports Host Link, peripheral bus, no-protocol, or Programming Console connections Built-in RS-232C port: Supports Host Link, No-protocol, 1:1 PLC Link (Master/Slave), or 1:1 NT Link connections (RS-232C communications are available only in CPU Boards equipped with an RS-232C port) Memory protection (See Notes 1 and 2.) HR area, AR area, program contents, read/write DM area contents, and counter values maintained during power interruptions Memory backup (See Notes 1 and 2.) Flash memory: Program, read-only DM area, and PLC Setup Battery or capacitor backup: The read/write DM area, HR area, AR area, and counter values are backed up by a battery CPU Boards with clock: Backup is approximately 5 years at 25C CPU Boards without clock: Backup is approximately 5 days at 25C Self-diagnostic functions CPU error (watchdog timer), I/O bus error, battery error, and memory error Program checks No END instruction, programming errors (checked when operation is started) Note: 1. The DM area, HR area, AR area, and counter values are backed up by the CPU Board's built-in battery or capacitor. If the battery or capacitor is discharged, the contents of these areas will be lost and the data values will revert to the defaults. 2. The contents of the program area, read-only DM area (DM 6144 to DM 6599), and PLC Setup (DM 6600 to DM 6655) are stored in flash memory. The contents of these areas will be read from flash memory the next time the power is turned ON, even if the backup battery or capacitor is discharged. When data has been changed in any of these areas, write the new values to flash memory by switching the CPM2B to MONITOR or RUN mode, or by turning the power OFF and then ON again. A--76 Micro Controller Board CPM2B J INPUT SPECIFICATIONS FOR CPU BOARD Item Inputs Specification Specification Input voltage All 24 VDC +10%/--15% 12 VDC +10%/--15% Input p impedance p IN00000 to IN00001 2.7 k 1.5 k IN00002 to IN00006 3.9 k 2.0 k IN00007 and up 4.7 k 2.4 k IN00000 to IN00001 8 mA typical 8 mA typical IN00002 to IN00006 6 mA typical 6 mA typical IN00007 and up 5 mA typical 5 mA typical IN00000 to IN00001 17 VDC min., 5 mA 9.5 VDC min., 5 mA IN00002 and up 14.4 VDC min., 3 mA 8.0 VDC min., 3 mA OFF voltage/current All 5.0 VDC max., 1 mA ON delay All 1 to 80 ms max. Default: 10 ms (See Note) OFF delay All 1 to 80 ms max. Default: 10 ms (See Note) Circuit configuration IN00000 to IN00001 Input p current ON voltage/current g / IN00002 to IN00006 IN00007 and up Note: 1. The input time constant can be set to 1, 2, 3, 5, 10, 20, 40, or 80 ms in the PLC Setup. 2. The value in parentheses shows the resistance for the CPM2B-32CjD1T-D12. Micro Controller Board CPM2B A--77 J INPUT SPECIFICATIONS FOR EXPANSION BOARDS Specification Item CPM2B-32EDT/32EDR/40EDR/64EDT CPM2B-32ED1T Input voltage 24 VDC +10%/--15% 12 VDC +10%/--15% Input impedance 4.7 k 2.4 k Input current 5 mA typical 5 mA typical ON voltage 14.4 VDC min. 8.0 VDC, 3 mA min. OFF voltage 5.0 VDC max. 3.0 VDC, 1 mA max. ON delay 1 to 80 ms max. Default: 10 ms (See Note) OFF delay 1 to 80 ms max. Default: 10 ms (See Note) Circuit configuration CPM2B-32EDT/32EDR/40EDR/64EDT CPM2B-32ED1T Note: The input time constant can be set to 1, 2, 3, 5, 10, 20, 40, or 80 ms in the PLC Setup. (The constant, however, is fixed to 1 ms for 40 and 64 I/O-point Expansion I/O Boards.) A--78 Micro Controller Board CPM2B Max. Number of Inputs Simultaneously ON The maximum number of inputs that can be ON simultaneously depends upon the ambient operating temperature and the installation orientation, as shown in the following diagrams. Installation orientation: Vertical with edge down All inputs can be ON simultaneously with this orientation. Input voltage 26.4 VDC 16 14 0 10 20 30 40 Max. number of inputs ON at the same time Max. number of inputs ON at the same time Installation orientation: Vertical with end down Input voltage 24 VDC 16 14 50 55 (C) 0 10 20 30 40 49 50 55 (C) 49 Input voltage 26.4 VDC 16 Input voltage 24 VDC Max. number of inputs ON at the same time Max. number of inputs ON at the same time Installation orientation: Horizontal 16 13 13 0 10 20 30 40 50 55 (C) 0 10 20 45 30 40 50 55 (C) 45 Micro Controller Board CPM2B A--79 J HIGH-SPEED COUNTER INPUTS Inputs IN00000 through IN00002 can be used as high-speed counter inputs, as shown in the following table. The maximum count frequency is 5 kHz in differential phase mode and 20 kHz in the other modes. Input p Function Differential phase mode Pulse plus direction input mode Up/down input mode Increment mode IN00000 A-phase pulse input Pulse input Increment pulse input Increment pulse input IN00001 B-phase pulse input Direction input Decrement pulse input Normal input IN00002 Z-phase pulse input or hardware reset input (IN00002 can be used as a normal input when it is not used as a high-speed counter input.) The minimum pulse widths for inputs IN00000 (A-phase input) and IN00001 (B-phase input) are as follows: Pulse plus direction input mode, Up/down input mode, Increment mode Differential phase mode 100 s min. 50 s min. Phase A Phase B 12.5 s min. 12.5 s min. T1 T2 T3 T4 T1 T2 T3 T4 : 12.5 s min. The minimum pulse width for input IN00002 (Z-phase input) is as follows: 50 s min. Phase Z 500 s min. A--80 Micro Controller Board CPM2B J INTERRUPT INPUTS Inputs IN00003 through IN00006 can be used as interrupt inputs (interrupt input mode or counter mode) and quick-response inputs. The minimum pulse width for these inputs is 50 s. Expansion I/O Board Input Specifications Item Specification CPM2B-32EDT/32EDR/40EDR/64EDT CPM2B-32ED1T Input voltage 24 VDC +10%/--15% 12 VDC +10%/ --15% Input impedance 4.7 k 2.4 k Input current 5 mA typical 5 mA typical ON voltage 14.4 VDC min. 8.0 VDC min., 3mA min. OFF voltage 5.0 VDC max. 3.0 VDC max., 1 mA max. ON delay 1 to 80 ms max. Default: 10 ms (See Note) OFF delay 1 to 80 ms max. Default: 10 ms (See Note) Circuit configuration CPM2B-32EDT/32EDR/40EDR/64EDT CPM2B-32ED1T Note: The input time constant can be set to 1, 2, 3, 5, 10, 20, 40, or 80 ms in the PLC Setup. (The constant, however, is fixed to 1 ms for 40 and 64 I/O-point Expansion I/O Boards. Micro Controller Board CPM2B A--81 J OUTPUT SPECIFICATIONS FOR CPU BOARD AND EXPANSION I/O BOARD Relay Outputs Item Specification Max. switching capacity 2 A, 250 VAC (cos = 1) 2 A, 24 VDC (4 A/common) Min. switching capacity 10 mA, 5 VDC Service life of relay (See Note) Electrical: ON delay 15 ms max. OFF delay 15 ms max. 150,000 operations (24 VDC resistive load) 100,000 operations (240 VAC inductive load, cos = 0.4) Mechanical: 20,000,000 operations Circuit configuration OUT COM Output LED Note: The service life of the CPM2B's relay output contacts shown in the table assumes the worst conditions. The following graph shows the results of OMRON's service life tests at a switching rate of 1,800 times/hour. Life (x 104) 120 VAC, resistive load 24 VDC, = 7 ms 120 VAC, cos = 0.4 240 VAC, cos = 0.4 24 VDC/240 VAC, resistive load Switching rate: 1,800 times/hour Contact current (A) A--82 Micro Controller Board CPM2B Transistor Outputs (NPN or PNP) Item Specification Max. switching capacity OUT01000 and OUT01001: 4.5 to 30 VDC, 0.2 A/output (See Note) OUT01002 and up: 4.5 to 30 VDC, 0.3 A/output (See Note) Leakage current 0.1 mA max. Residual voltage 1.5 V max. ON delay OUT01000 and OUT01001: OUT01002 and up: 20 s max. 0.1 ms max. OFF delay OUT01000 and OUT01001: 40 s max. for 4.5 to 26.4 V, 10 to 100 mA 0.1 ms max. for 4.5 to 30 V, 10 to 200 mA OUT01002 and up: 1 ms max. for 4.5 to 30 V, 10 to 300 mA Fuse Circuit configuration 1 fuse/output (cannot be replaced by user) Sinking Outputs Note: When using OUT01000 or OUT01001 for pulse outputs, connect a dummy resistor as required to bring the load current between 0.01 and 0.1 A. If the load current is below 0.01 A, the ON-to-OFF response time will be too long and high-speed pulses will not be output. Micro Controller Board CPM2B A--83 Dimensions Unit: mm (inch) J CPU AND EXPANSION I/O BOARDS CPM2B-32CjDj-D 32-point Models CPM2B-40C2DR-D 40-point Models 100 (3.94) 70 (2.76) 150 (5.91) 108 (4.25) 70 (2.76) 164 (6.46) 164 (6.46) 186 (7.32) 174 (6.85) CPM2B-32ED 233 (9.17) 32-point Models CPM2B-40EDR 40-point Models 108 (4.25) 108 (4.25) 70 (2.76) 70 (2.76) 164 (6.46) 164 (6.46) 209 (8.23) 209 (8.23) CPM2B-64EDT 64-point Models CPM2B-MADjj Analog I/O Boards 108 (4.25) 70 (2.76) 70 (2.76) 164 (6.46) 164 (6.46) 174 (6.85) A--84 Micro Controller Board 174 (6.85) CPM2B 108 (4.25) J MOUNTING BRACKET CPM2B-ATT01 Mounting Bracket Six, 3.5 dia. 6 (0.24) Four, 4.5 dia. Side view 28 (1.10) Min. head room for board components 100 (3.94) CPU Board 28 (1.10) 70 (2.76) 110 (4.93) 28 (1.10) Expansion I/O Boards 28 (1.10) 164 (6.46) 14 (0.55) 186 (7.32) Mounting Bracket 6 (0.24) 196 (7.72) J WEIGHT Name Model CPU Board 24 VDC 12 VDC Expansion p I/O / Board Analog I/O Board Weight CPM2B-32C1DR-D 233 g max. CPM2B-32C2DR-D 260 g max. CPM2B-32C1DT-D 150 g max. CPM2B--32C2DT-D 178 g max. CPM2B-40C2DR-D 294 g max. CPM2B-32C1DT1-D12 150 g max. CPM2B-32C2DT1-D12 178 g max. CPM2B-32EDR 199 g max. CPM2B-32EDT/32ED1T 115 g max. CPM2B-40EDR 239 g max. CPM2B-64EDT 166 g max. CPM2B-MADjj 160 g max. Micro Controller Board CPM2B A--85 Functions J CONFIGURATION The CPM2B programmable controller system has both CPU boards and Expansion I/O boards that provide the functionality of block-style controllers. Capabilities include synchronized pulse control, interrupt inputs, pulse outputs, serial communications and real-time clock functions. In many applications, the CPM2B controller can be a cost-effective alternative to custom-designed embedded control boards. Mini-peripheral Port Programming Devices are compatible with other models of Omron PLCs. This port can also be used for Host Link or no-protocol communications. RS-232C Port This port can be used for a Host Link, no-protocol, 1:1 PLC Link, or 1:1 NT Link communications. Relay Output Board Transistor Output Board The CPU Board has 32 or 40 I/O points and Expansion I/O Boards can be added to provide a total I/O capacity of up to 168 I/O points. J BUILT-IN MOTOR CONTROL CAPABILITIES Synchronized Pulse Control (Transistor Outputs Only) Encoder Synchronized pulse control provides an easy way to synchronize the operation of a peripheral piece of equipment with the main equipment. The output pulse frequency can be controlled as some multiple of the input pulse frequency, allowing the speed of the peripheral piece of equipment (such as a supply conveyor) to be synchronized with the speed of the main piece of equipment. CPM2B Motor driver Motor Pulses are output as a fixed multiple of the input frequency. High-speed Counters and Interrupts The CPM2B has a total of five high-speed counter inputs. The one high-speed counter input has a response frequency of 20 kHz/5kHz and the four interrupt inputs in counter mode have response frequency of 2 kHz. The high-speed counter can be used in any one of the four input modes: differential phase mode (5 kHz), pulse plus direction input mode (20 kHz), up/down pulse mode (20 kHz), or increment mode (20 kHz). Interrupts can be triggered when the count matches a set value or falls within a specific range. Counter inputs Rotary encoder (such as E6C2-C) Resets inputs (for differential phase inputs) Sensor A--86 Micro Controller Board CPM2B The interrupt inputs in counter mode can be used for incrementing counters or decrementing counters (2 kHz) and trigger an interrupt (executing the interrupt program) when the count matches the target value. Input Response frequency Input mode (count value) Control method 00000 00001 00002 5 kHz Differential phase input mode (-8,388,608 to 8,388,607) 20 kHz Pulse + direction input mode (-8,388,608 to 8,388,607) Up/down pulse input mode (-8,388,608 to 8,388,607) Increment mode (0 to 16,777,215) Target value comparison interrupts Range comparison interrupts Position Control with Pulse Outputs (Transistor Output Models Only) The CPM2B PLCs with transistor outputs have two outputs that can produce 10 Hz to 10 kHz pulses (single-phase outputs). When used as single-phase pulse outputs, there can be two outputs with a frequency range of 10 Hz to 10 kHz with a fixed duty ratio or 0.1 to 999.9 Hz with a variable duty ration (0 to 100% duty ratio). When used as pulse plus direction or up/down pulse outputs, there can be just one output with a frequency range of 10 Hz to 10 kHz. Stepping motor SmartStep Servodriver Pulse outputs Single-phase pulse output with trapezoidal acceleration/deceleration Item Single-phase pulse output without accel/decel pu ou acce /dece Variable duty-ratio pulse pu se output ou pu Controlling instruction(s) PULS(65) and SPED(64) PWM(----) PULS(65) and ACC(----) 01000 Pulse output 0 (See Note) Pulse output 0 (See Note) Pulse output 0 01001 Pulse output 1 (See Note) Pulse output 1 (See Note) 10 Hz to 10 kHz 0.1 Hz to 999.9 Hz 10 Hz to 10 kHz 10 Hz to 10 kHz 10 Hz 0.1 Hz 10 Hz 10 Hz 50% 0 to 100% 50% 50% Pulse + direction output Output number u be Output frequency range Pitch Duty ratio Pulse output Up/down pulse output Pulse output 0 Direction output CW pulse output CCW pulse output Note: With single-phase pulse outputs, pulse outputs 0 and 1 can each be output independently. J HIGH-SPEED INPUT CAPABILITIES FOR MACHINE CONTROL High-speed Interrupt Input Function There are four inputs used for interrupt inputs (shared with quick-response inputs and interrupt inputs in counter mode) with a minimum input signal width of 50 s and response time of 0.3 ms. When an interrupt input goes ON, the main program is stopped and the interrupt program is executed. Analog Settings There are two controls on the CPU Board that can be turned to change the analog settings (0 to 200 BCD) in IR 250 and IR 251. These controls can be used to easily change or fine-tune machine settings such as a conveyor belt's pause time or feed rate. DIP Switch Inputs A DIP switch is provided that controls the status of four input bits. Quick-response Input Function Calendar/Clock There are four inputs used for quick-response inputs (shared with interrupt inputs and interrupt inputs in counter mode) that can reliably read input signals with a signal width as short as 50 s. The built-in clock (accuracy within 1 minute/month) can be read from the program to show the current year, month, day, day of the week, and time. The clock can be set from a Programming Devices (such as a Programming Console) or the time can be adjusted by rounding up or down to the nearest minute. Stabilizing Input Filter Function The input time constant for all inputs can be set to 1 ms, 2 ms, 3 ms, 5 ms, 10 ms, 20 ms, 40 ms, or 80 ms. The effects of chattering and external noise can be reduced by increasing the input time constant. J OTHER CONVENIENCE FUNCTIONS Long-term Timer TIML (--) is a long-term timer that accommodates set values up to 99,990 seconds (27 hours, 46 minutes, 30 seconds). When combined with the SECONDS TO HOURS conversion instruction HMS (--), the long-term timer provides an easy way to control equipment scheduling. Interval Timer Interrupts The interval timer can be set between 0.5 and 319,968 ms and can be set to generate just one interrupt (one-shot mode) or periodic interrupts (scheduled interrupt mode). Micro Controller Board CPM2B A--87 J ANALOG I/O CONTROL CAPABILITIES A CPU Board with a 24 VDC power supply can be connected with up to three Analog I/O Boards, to which external analog I/O devices can be connected using up to eight inputs and four outputs. Select the Analog I/O Boards that are appropriate for the system being used from the following three models. Model Number of inputs Number of outputs Maximum number of connectable units CPM2B-MAD63 6 points 3 points 1 CPM2B-MAD42 4 points 2 points 2 CPM2B-MAD21 2 points 1 points 3 (If two CPM2B-MAD42 Analog I/O Boards are connected, there will be 8 inputs and 4 outputs.) Analog I/O signals correspont to various voltage/current signals, enabling connection of various analog devices. Input signal ranges Output signal ranges Resolution 0 to 5 V, 1 to 5 V, 0 to 10 V, --10 to 10 V, 0 to 20 mA, and 4 to 20 mA 1 to 5 V, 0 to 10 V, --10 to 10 V, 0 to 20 mA, and 4 to 20 mA 6,000 (full scale) If input signals are subject to minute fluctuations, average processing can be used to read the input signals as a stable signal. Average processing can be set separately for each input using the DIP switch. When analog inputs are used in the range of 1 to 5 V or 4 to 20 mA, line disconnection detection will function. When the input signal level recovers, the line disconnection status is automatically cleared. A--88 Micro Controller Board CPM2B Communications J NT LINK In a 1:1 NT Link, an Omron NT-series Programmable Terminal can be connected directly to the CPM2B for real time display of process values. The Programmable Terminal must be connected to the RS-232C port; it cannot be connected to the Peripheral port. Using Host Link communications, an Omron NT-series Programmable Terminal can be connected to CPM2B at either the RS-232C or Peripheral port using the adapters shown below. C200H-CN_O-EU CBL-804* NT31C-CN_O-EU (for NT31C port B only) CBL-803* Serial port C200H-CN_O-EU CBL-804* Mini-peripheral port OMRON Programmable Terminal CPM1-CIF01 RS-232C Adapter *Available in Canada Only CS1W-CN114 (0.05 m) CPM2B CPU Board J HOST LINK A Host Link connection can be made through the PLC's RS-232C port or peripheral port. A personal computer or Programmable Terminal connected in Host Link mode can be used for operations such as reading/writing data in the PLC's I/O memory or reading/changing PLC's operating mode. 1:1 Host Link Communications Mini-peripheral Port Connection RS-232C Port Connection IBM PC/AT or compatible computer IBM PC/AT or compatible computer C200HS-CN220-EU (2 m) CBL-202* XW2Z-200S-V (2 m) XW2Z-500S-V (5 m) Mini-peripheral port RS-232C port (D-sub 9-pin) Mini-peripheral port CS1W-CN114 (0.05 m) CPM2B CPU Board CQM1-CIF02 CPM2B CPU Board Peripheral Port Connection IBM PC/AT or compatible computer CPM1-CIF01 RS-232C Adapter *Available in Canada Only CS1W-CN114 (0.05 m) Mini-peripheral port C200HS-CN220-EU (2 m) XW2Z-200S-V (2 m) XW2Z-500S-V (5 m) CBL-202* CPM2B CPU Board Micro Controller Board CPM2B A--89 1:N Host Link communications Up to 32 Omron programmable controllers, including, CPM2B, can be connected to a host computer. Using the Peripheral Port IBM PC/AT or compatible computer with RS-422/ RS-485 communications board installed C200HS-CN220--EU CBL-202* 2 m cable RS-422 (Total length: 500 m max.) CPM2C-CIF11 CPM2C-CIF11 CPM2B CPU Board CPM2B CPU Board CPM2C-CIF11 CPM2B CPU Board *Available in Canada Only Up to 32 PCs Note: Only one port on the CPM2C-CIF11 may be used. The adapter receives +5 VDC from the peripheral port. J NO-PROTOCOL COMMUNICATIONS The transmit data TXD (48) and receive data RXD (47) instructions can be used in no-protocol mode to exchange data with standard serial devices. For example, data can be received from a bar code reader or transmitted to a serial modem. The serial devices can be connected directly to the RS-232C port or via the Peripheral port using a communication adapter (CPM2C-CIF01 or CIF11). Inputting data from a bar code reader Bar code reader A--90 Outputting data to a serial modem CPM2B Micro Controller Board CPM2B Serial modem CPM2B J 1:1 DATA LINKS A CPM2B can be linked directly to another CPM2B, CQM1, CPM1, CPM1A, CPM2A, CPM2C, SRM1(-V2), C200HS or C200HX/HG/HE PLC. The 1:1 PLC Link allows automatic data link connections. The PLC's must be connected through the RS-232C ports; they cannot be connected through the Mini-peripheral ports. 1:1 Link Master 1:1 Link Slave RS-232C port (D-sub 9-pin) RS-232C port (D-sub 9-pin) Connecting Cable C200H-CN510-EU (.5 m) C200H-CN320-EU (3 m) C200H-CN520-EU (5 m) CBL-803* CPM2B CPU Board CPM2B CPU Board *Available in Canada Only Omron Programmable Controller (CQM1, CPM1, CPM1A, CPM2A, CPM2B, CPM2C, SRM1(-V2), C200HS, or C200HX/HG/HE) Link bits Omron Programmable Controller (CQM1, CPM1, CPM1A, CPM2A, CPM2B, CPM2C, SRM1(-V2), C200HS, or C200HX/HG/HE) Link bits LR 00 WRITE LR 00 WRITE area READ area LR 07 LR 08 READ area READ READ LR 07 LR 08 LR 15 WRITE area WRITE LR 15 J PROGRAM TRANSFER UNIT Use Omron's EEPROM program transfer unit to update programs in machines or program multiple controllers with the same program. Mini-peripheral port Micro Controller Board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|7HUPVDQG&RQGLWLRQVRI6DOHIRUSURGXFWSXUFKDVHDQGXVHDUHRQ2PURQ(c)VZHEVLWH DWZZZRPURQFRPRHLXQGHUWKH|$ERXW8VWDELQWKH/HJDO0DWWHUVVHFWLRQ $//',0(16,2166+2:1$5(,10,//,0(7(56 7RFRQYHUWPLOOLPHWHUVLQWRLQFKHVPXOWLSO\E\7RFRQYHUWJUDPVLQWRRXQFHVPXOWLSO\E\ 20521(/(&7521,&6//& 20521&$1$'$,1& 2QH&RPPHUFH'ULYH 6FKDXPEXUJ,/ )RU86WHFKQLFDOVXSSRUWRURWKHULQTXLULHV 0LOQHU$YHQXH 7RURQWR2QWDULR0%9 2052121/,1( *OREDOKWWSZZZRPURQFRP 86$KWWSZZZRPURQFRPRHL &DQDGDKWWSZZZRPURQFD Cat. No. R301-E3-01 2/04 Specifications subject to change without notice Printed in USA