Programmable Relay ZEN V2 Units CSM_ZEN_DS_E_5_3 Even Broader Applications with Increased Functionality and Higher Precision * Increased functionality in a compact body (70 mm wide x 90 mm high). * Easy programming is available using the LCD and operation buttons. (See note 1.) * This single Unit easily provides relay, timer, counter, and time switch functions. * Expansion is easy with Expansion I/O Units, allowing up to 44 I/O points. (See note 2.) * Economy-type and Communications-type CPU Units have been added to series. * Improved Weekly Timers (See note 1.) Increased timing accuracy with a monthly deviation of 15 s max. Multiple-day operation and pulse output operation have been added. * Select from two power supply options: 100 to 240 VAC or 12 to 24 VDC. Refer to Safety Precautions on page 33 Note: 1. Not supported for ZEN-@C2@@-@-V2 models. 2. When using CPU Units with 20 I/O points. The information in this document applies to V2 Units. Refer to page 28 for details on differences with previous products. Features Easy and Simple Programming for Automatic Small-scale Control Saves Space, Wiring, and Installation Steps Easy Programming * Versatile functionality in a compact body (70 mm wide x 90 mm high). * This single Unit easily provides relay, timer, counter, and time switch functions. Wiring work is greatly reduced because separate wiring is not required for devices such as timers and counters. The LCD screen comes with 8 operation buttons on the front panel to enable programming in ladder view format. The LCD screen also has a backlight, making it easier to see when the ZEN is used in dark locations. Note: Not supported for ZEN-@C2@@-@-V2 models. 90 mm 70 mm 1 ZEN V2 Units Flexible Expansion Enables Up to 44 I/O Points Up to three Expansion I/O Units can be connected if there are not enough I/O points. Expansion I/O Units are only 35 mm wide. Support Software with Simulation Function * Programs can be easily written, saved, and monitored by personal computer. * Programs can be simulated on the personal computer without connecting to the ZEN. Note: CPU Units with 10 I/O points can be expanded to 34 I/O points. Expansion I/O Units cannot be connected to Economy-type CPU Units. Note: For notebook computers that do not have an RS-232C serial port, connect the computer to the ZEN by connecting an OMRON CS1W-CIF31 USB-Serial Conversion Cable to the ZEN-CIF01 Connecting Cable. Other Versatile Functions * Use of a Memory Cassette makes it easy to copy and save programs. * Equipped with two analog input channels (CPU Units with DC power supply only). * Password function ensures security. (See note.) * Multi-language display in six languages (English, Japanese, German, French, Spanish, Italian). (See note.) * Display user-set messages or analog-converted values. (See note.) Note: Not supported for ZEN-@C2@@-@-V2 models. Enhanced Features of V2 CPU Units Improved Weekly Timer and Calendar Timer Functions RS-485 Communications Model Added to Series Note: Not supported for ZEN-@C2@@-@-V2 models. * The time precision has been increased. Conventional model: 2-min difference/month -V2 models: 15-s difference/month (at 25C) * Multiple-day operation and pulse-output operation are now possible. * These improved functions are convenient for time-controlled applications such as lighting and air conditioning control. Production line conditions can be remotely monitored by monitoring the ZEN control status. Production line Office More Precise Analog Input Lighting control Air conditioning control Economy-type Added to the Series * Economy-type CPU Units with a more affordable price have been added to the series, although Expansion I/O Units cannot be added. Conventional model: 10% FS -V2 models: 1.5% FS DC power supply models are equipped with two analog inputs (0 to 10 V). There are four analog comparators. The increased precision makes it even easier to use the Unit in simple control applications with voltage, current, temperature, and other analog values. 8-digit Counter, 150-Hz Counter * An 8-digit counter and 8-digit comparator have been added. * The maximum count for DC power supply models is 150 Hz. 12 to 24 VDC Line Voltage Operation Twin-timer Operation Added Operation is now possible with 12 VDC. Twin-timer operation allows you to set ON and OFF times separately, greatly simplifying intermittent operation. Expansion I/O Units have been reduced to half-size (35 mm wide). 2 ZEN V2 Units Series Configuration CPU Units Power supply voltage: 100 to 240 VAC, 12 to 24 VDC, Output: Relay, transistor output With LCD display, operation buttons, and calendar/clock function 10 I/O points 20 I/O points LED type 10 I/O points ZEN-10C2@ 20 I/O points ZEN-20C2@ This CPU Unit has no LCD, operation buttons, or calendar/clock function. Standard LCD type Economy type Communications type Standard LCD type Economy type ZEN-10C1@ ZEN-10C3@ ZEN-10C4@ ZEN-20C1@ ZEN-20C3@ Expansion I/O Units cannot be connected. RS-485 communications type. (10 I/O points) Expansion I/O Units cannot be connected. Expansion I/O Units Power Supply Unit Support Software Only 35-mm wide. 4 input, 4 output points Same shape and design as ZEN. 24 VDC, 30 W Allows easy programming and operation simulation. 3 ZEN V2 Units Model Number Structure Model Number Legend Note: This model number legend includes combinations that are not available. Please check List of Models on page 5 for availability. CPU Units ZEN-@C@@@-@-V2 1 2 3 4 5 1. Number of I/O points 10: 6 inputs and 4 outputs (See note.) 20: 12 inputs and 8 outputs 2. Type classifier 1: Standard LCD type with display 2: LED type without display 3: Economy type with display (Expansion I/O Units cannot be connected.) 4: Communications type with display 3. Input type A: AC input D: DC input 4. Output type R: Relay T: Transistor 5. Supply voltage A: AC power supply D: DC power supply Note: The Communications-type CPU Unit has 6 inputs and 3 outputs. Expansion I/O Units ZEN-8E1@@ 1 2 3 4 1. Number of I/O points 8: 4 inputs and 4 outputs 2. Unit version classifier E1: Can connect to V2 CPU Units (See note.) 3. Input type A: AC input D: DC input 4. Output type R: Relay T: Transistor Note: Use a ZEN-8E@@/-4E@ to connect to pre-V1 and V1 CPU Units. This data sheet is provided as a guideline for selecting products. Be sure to refer to the following user manuals for application precautions and other information required for operation before attempting to use the product. ZEN Operation Manual (Cat. No. Z211) ZEN Communications Manual (Cat. No. Z212) ZEN Support Software Operation Manual (Cat. No. Z184-E1-03) The PDF versions of these manuals can be downloaded from the following website. ZEN Website http://www.fa.omron.co.jp 4 ZEN V2 Units Ordering Information List of Models CPU Units and Expansion I/O Units Unit CPU Units Name Standard LCD type No. of I/O points LCD display 10 Yes Power supply voltage 100 to 240 VAC Inputs 6 12 to 24 VDC 100 to 240 VAC Outputs 4 Relays Buttons, calendar, and clock Yes 12 to 24 VDC Analog input No ZEN-10C1AR-A-V2 Yes ZEN-10C1DR-D-V2 No ZEN-20C1AR-A-V2 Yes ZEN-20C1DR-D-V2 No ZEN-10C2AR-A-V2 Yes ZEN-10C2DR-D-V2 No ZEN-20C2AR-A-V2 Yes ZEN-20C2DR-D-V2 No ZEN-10C3AR-A-V2 Yes ZEN-10C3DR-D-V2 No ZEN-20C3AR-A-V2 Transistors 20 100 to 240 VAC 12 12 to 24 VDC 100 to 240 VAC 8 ZEN-10C1DT-D-V2 Relays 12 to 24 VDC Transistors LED type 10 without display (See note 1.) No 100 to 240 VAC 6 12 to 24 VDC 100 to 240 VAC 4 Relays ZEN-20C1DT-D-V2 No 12 to 24 VDC Transistors 20 100 to 240 VAC 12 12 to 24 VDC 100 to 240V AC 8 ZEN-10C2DT-D-V2 Relays 12 to 24 VDC Transistors Economy type (Expansion I/O Units cannot be connected) 10 Yes Expansion I/O Units 6 100 to 240 VAC 12 100 to 240 VAC 12 to 24 VDC 20 100 to 240 VAC 100 to 240 VAC Relays 8 Relays ZEN-20C2DT-D-V2 Yes 12 to 24 VDC 6 12 to 24 VDC 100 to 240 VAC 3 Relays 12 to 24 VDC Yes ZEN-20C3DR-D-V2 No ZEN-10C4AR-A-V2 Yes ZEN-10C4DR-D-V2 Set containing CPU Unit (ZEN-10C1AR-A-V2), Connecting Cable, ZEN Support Software, and manual. ZEN-KIT01-EV4 (See note 4.) Set containing CPU Unit (ZEN-10C1DR-D-V2), Connecting Cable, ZEN Support Software, and manual. ZEN-KIT02-EV4 (See note 4.) 8 ZEN-8E1AR (See notes 2, 3.) --- 100 to 240 VAC 12 to 24 VDC 4 100 to 240 VAC 4 Relays --- 12 to 24 VDC --Note: 1. 2. 3. 4. 4 12 to 24 VDC 12 to 24 VDC Communica- 9 tions type ZEN Kit 100 to 240 VAC Model ZEN-8E1DR (See note 2.) Transistors ZEN-8E1DT (See note 2.) Programming is not possible using only the CPU in the LED-type CPU Unit. ZEN Support Software or a Memory Cassette is required. Cannot be connected to pre-V1 and V1 CPU Units. The ZEN-8E1AR cannot be connected to a CPU Unit with DC power supply. Product no longer available to order. Power Supply Unit Power ratings 30 W Input voltage 100 to 240 VAC Output voltage 24 VDC Output current 1.3 A Model ZEN-PA03024 Note: Product no longer available to order. Refer to the ZEN-PA03024 Datasheet (Cat. No. L103) for detailed specifications. 5 ZEN V2 Units Accessories (Order Separately) Name Specifications Memory Cassette EEPROM (for data security and copying) Remarks Model Enables programs and parameter settings to be saved or copied to another ZEN. (See note 1.) ZEN-ME01 LCD-type CPU Unit with LED-type CPU Unit without display (See note 2.) display (See note 3.) Connecting Cable 2 m RS-232C (9-pin Dsub connector) Transfer from ZEN to Memory Supported Not supported Transfer from Memory Cassette to ZEN Supported Automatic transfer when power turned ON Memory Cassette initialization Supported Not supported --- ZEN-CIF01 Battery Unit 10 years min. Battery life Ladder programs and parameter settings are saved to the CPU Unit EEP-ROM ZEN-BAT01 (at 25C) but calendar, clock, and holding timer bits and holding timer/counter present values are held by the capacitor. Therefore, if the power supply is interrupted for 2 days or more (at 25C), this data will be reset. Use a Battery Unit for systems where the power supply may be interrupted for long periods. ZEN Support Software Runs on Windows 95, 98, Specifically designed for the ZEN (CD-ROM). 2000, ME, XP, NT 4.0, Vista or 7. (See note 4.) ZEN-SOFT01-V4 Note: 1. Memory Cassettes created using a CPU Unit can be read to other CPU Units, regardless of which model is used. Restrictions, apply, however, to the functions that can be used, depending on the CPU Unit version combination. For details, refer to Memory Cassette and CPU Unit Combinations on page 31. 2. Standard LCD-type, Economy-type, and Communications-type CPU Units (i.e., excluding ZEN-@C2@@-@-V2 models). 3. LED-type CPU Unit without display (i.e., ZEN-@C2@@-@-V2 models). 4. Except for 64-bit versions of Windows. Mounting Accessories (Order Separately) Name Specifications Mounting Track Model 50 cm (l) x 7.3 mm (t) PFP-50N 1 m (l) x 7.3 mm (t) PFP-100N 1 m (l) x 16 mm (t) PFP-100N2 End Plate PFP-M Spacer PFP-S System Configuration Power Supply Unit Expansion I/O Units CPU Unit Battery Unit Connecting Cable Memory Cassette Support Software Note: 1. Up to 3 Expansion I/O Units can be connected to any type of CPU Unit except for Economy-type CPU Units. Expansion I/O Units with AC Inputs, however, cannot be connected to CPU Units with DC Power Supplies. 2. The Connecting Cable and Memory Cassette cannot be connected to the ZEN at the same time. 3. Programs cannot be written to LED-type CPU Units (i.e., ZEN-@C2@@-@-V2 models) without the ZEN Support Software or a Memory Cassette. 6 ZEN V2 Units Specifications Ratings Item Specification ZEN-@C@AR-A-V2/ZEN-8E1AR ZEN-@C@D@-D-V2/ZEN-8E1D@ Rated supply voltage 100 to 240 VAC, 50/60 Hz 12 to 24 VDC (DC ripple rate: 5% max.) Operating voltage range 85 to 264 VAC 10.8 to 28.8 VDC Power consumption CPU Units without Expansion I/O Units * ZEN-10C1AR-A-V2/ZEN-10C2AR-A-V2/ ZEN-10C3AR-A-V2 100 V AC: 5 VA max. 240 V AC: 7 VA max. * ZEN-10C4AR-A-V2 100 V AC: 6 VA max. 240 V AC: 8 VA max. * ZEN-20C@AR-A-V2 100 V AC: 7 VA max. 240 V AC: 10 VA max. CPU Units without Expansion I/O Units * ZEN-10C@DR-D-V2 12/24 V DC: 3 W max. (ZEN-10C3DR-D-V2: 2.8 W max.) * ZEN-10C@DT-D-V2 12/24 V DC: 2 W max. * ZEN-20C@DR-D-V2 12/24 V DC: 4 W max. * ZEN-20C@DT-D-V2 12/24 V DC: 2 W max. CPU Units with three Expansion I/O Units * ZEN-10C1AR-A-V2/ZEN-10C2AR-A-V2 100 V AC: 6 VA max. 240 V AC: 8 VA max. * ZEN-10C4AR-A-V2 100 V AC: 7 VA max. 240 V AC: 9 VA max. * ZEN-20C@AR-A-V2 100 V AC: 8 VA max. 240 V AC: 11 VA max. Expansion I/O Units * ZEN-8E1AR 100 V AC: 3 VA max. 240 V AC: 4 VA max. Inrush current ZEN-10C@AR-A-V2: 4.5 A max. ZEN-20C@AR-A-V2: 4.5 A max. ZEN-8E1AR: 4 A max. Ambient temperature 0 to 55C (-25 to 55C for ZEN-@C2@@-@-V2 models) CPU Units with three Expansion I/O Units * ZEN-10C@DR-D-V2 12/24 V DC: 4 W max. * ZEN-10C@DT-D-V2 12/24 V DC: 3 W max. * ZEN-20C@DR-D-V2 12/24 V DC: 5 W max. * ZEN-20C@DT-D-V2 12/24 V DC: 3 W max. Expansion I/O Units * ZEN-8E1DR 12/24 V DC: 2 W max. ZEN-10C@D@-D-V2: 30 A max. ZEN-20C@D@-D-V2: 30 A max. ZEN-8E1DR: 15 A max. Ambient storage temperature -20 to 75C (-40 to 75C for ZEN-@C2@@-@-V2 models) Ambient humidity 10% to 90% (with no condensation) Ambient conditions No corrosive gases Mounting method Surface mounting, DIN track mounting (standard (vertical) installation and horizontal installation) (See notes 1 and 2.) Terminal block Solid-line terminal block (use solid wire or fine-stranded wire) Terminal screw tightening torque 0.565 to 0.6 N*m (5 to 5.3 in-lb) Degree of protection IP20 (Mounted inside a control panel) Note: 1. Can be mounted to 35-mm DIN Track. 2. Standard (Vertical) installation Horizontal installation 7 ZEN V2 Units Characteristics Item Specification Control method Stored program control I/O control method Cyclic scan Programming language Ladder diagram Program capacity 96 lines (3 input conditions and 1 output per line) Max. No. of control I/O points 44 points (See note 1.) CPU Units with 20 I/O points: 12 inputs and 8 outputs Expansion I/O Units: 4 inputs and 4 outputs each, up to 3 Units. LCD display (See note 2.) 12 characters x 4 lines, with backlight Operation buttons (See note 2.) 8 (4 cursor buttons and 4 operation buttons) User program backup Internal EEPROM, Memory Cassette (optional) Power interruption hold Internal holding bit status, holding timer/counter present values, calendar and clock (year, month, day of month, day of week, time) * Super capacitor backup time:2 days min. (25C) * Life of optional battery: 10 years min. (25C) Calendar and clock function (See note 2.) Accuracy: 15 s/month (at 25C) Timer accuracy 0.01 s unit: -0.05% -10 ms max. (rate for set value) min/s unit: -0.05% -1 s max. (rate for set value) h/min unit: -0.05% -1 min max. (rate for set value) Maximum counting speed 150 Hz: 8-Digit counter (F) set to high-speed operations (CPU Units with DC power supplies only) (The counting speed may be less than 150 Hz depending on the cycle time of the program. See page 21.) Insulation resistance 20 M (at 500 VDC) min.: Between power supply terminals and all output terminals. Between terminals of different output circuits. Between all terminals of CPU Unit and all terminals of Expansion I/O Unit. Insulation * Reinforced insulation Between power supply or input terminals and output terminals. Between terminals of different output circuits. Between all terminals of CPU Unit and all terminals of Expansion I/O Unit. * No separation Between power supply and input terminals of the same unit. Between power supply terminals of CPU Unit and computer connector, Battery Unit connector, or all Expansion Unit connectors (all interfaces are live parts). Dielectric strength 2,300 VAC, 50/60 Hz for 1 min (leakage current 1 mA max.): Between power supply terminals and all output terminals. Between terminals of different output circuit. Between all terminals of CPU Unit and all terminals of Expansion I/O Unit. Vibration resistance Conforms to IEC60068-2-6, 5 to 9 Hz with 3.5-mm single amplitude, 9 to 150 Hz acceleration 9.8 m/s2, 10 sweeps each in X, Y, and Z directions (1 octave/min) Shock resistance Conforms to IEC60068-2-27, 147 m/s2, 3 times each in X, Y, and Z directions. Weight CPU Unit with 10 I/O points: Approx. 300 g max. CPU Unit with 20 I/O points: Approx. 350 g max. Expansion I/O Unit: Approx. 120 g max. Note: 1. Up to 34 points for CPU Units with 10 I/O points. With Communications-type CPU Units, however, the CPU Unit has 6 inputs and 3 outputs, for a maximum of 33 I/O points. 2. Not provided for LED-type CPU Unit without display (i.e., ZEN-@C2@@-@-V2 models). Communications Specifications (Communications-type CPU Units) Item ZEN-10C4@R-@-V2 Communications RS-485 (two-wire, half duplex) Synchronization method Start-stop synchronization Baud rate 4800, 9600, or 19200 bps Transmission code ASCII Data bit length 7 or 8 bits Stop bit length 1 or 2 bits Error detection Vertical parity (none, even, odd), Block check character (BCC) Flow control None Interface RS-485 Retry function None Node number 0 to 99 (default: 1), XX (broadcasting) 8 ZEN V2 Units Approved Standards Item Specification Safety standards cULus: UL508/CSA C22.2 No.142 (ZEN-PA03024 take Class I Div2) Conforms to EN/IEC 61131-2 clause 11, excluding 11.7.2.2 (Overvoltage category 2 and Pollution degree II conforms to IEC 60664-1) EMC (See note.) Radiation Field Emission Noise Terminal Voltage Emission CISPR11 CISPR11 Electrostatic Discharge Immunity Electromagnetic Field Immunity Electrical Fast Transient/Burst Immunity IEC61000-4-2 IEC61000-4-3 IEC61000-4-4 Class A, Group 1 Class A, Group 1 In air: 8 kV, In contact: 6 kV 10 V/m Power line AC I/O: 2 kV DC I/O: 1 kV Surge Immunity IEC61000-4-5 Normal Noise AC power supply, AC I/O: 1 kV DC power supply, DC I/O: 0.5 kV Common Noise AC power supply, AC I/O: 2 kV DC power supply: 1 kV DC I/O: 0.5 kV Immunity to Conducted Disturbances Induced by Radio-frequency Fields IEC61000-4-6 3V Momentary Power Interruption Immunity IEC61131-2 CPU Units with AC Power Supplies: 10 ms max. CPU Units with DC Power Supplies: 2 ms max. (level: PS1) Note: EMC conforms to EN 61131-2 clause 8 except in the following cases. * When Expansion I/O Units with DC inputs are connected to a CPU Unit with an AC power supply, the burst immunity between power supplies will be 1 kv. * When the signal wire for transistor outputs exceeds 10 m, the surge immunity of DC output signal lines will not conform. Input Specifications CPU Units AC Inputs (Not Isolated) Item Specifications Circuit drawing Input voltage 100 to 240 VAC +10%, -15%, 50/60 Hz Input impedance 680 k Input current 0.15 mA/100 VAC, 0.35 mA/240 VAC IN 330 k 300 k ON voltage 80 VAC min. IN OFF voltage 25 VAC max. ON response time 50 ms or 70 ms at 100 VAC (See note.) 100 ms or 120 ms at 240 VAC (See note.) OFF response time 51 k Internal circuit 100 to 240 VAC N L Note: Can be selected using the filter settings. DC Inputs: I0 to I3 for Units with 10 I/O points, I0 to I9 for Units with 20 I/O Points (Not Isolated) Item Specifications Input voltage 12 to 24 VDC +20%, -10% Input impedance 5.3 k Input current 4.5 mA (typ.)/24 VDC ON voltage 8 VDC min. OFF voltage 5 VDC max. ON response time 15 ms or 50 ms (See note.) Circuit drawing IN 5.1 k 1.8 k 12 to 24 VDC IN Internal circuit COM OFF response time Note: Can be selected using the input filter settings, except when I0 is being used for an 8-digit counter with a high-speed input. 9 ZEN V2 Units DC Inputs: I4 and I5 for Units with 10 I/O points, Ia and Ib for Units with 20 I/O Points (Not Isolated) Item Specifications Input current NPN: 5.5 k/14 VDC min. 100 k/14 VDC max. 5.2 k PNP: NPN: 4.3 mA (typ.)/24 VDC 4.6 mA (typ.)/24 VDC ON voltage 8 VDC min. OFF voltage 3 VDC max. ON response time 15 ms or 50 ms (See note.) OFF response time Input range 150 k IN 47 k COM 47 k 12 to 24 VDC External input impedance 100 k min. Resolution 0.1 V (1/100 FS) Accuracy 1.5% FS (at ambient operating temperature within rated range) 6.2 k 220 k - 0 to 10 V 27 k + Internal circuit PNP: Analog voltage output device Input impedance Analog Inputs Circuit drawing 12 to 24 VDC +20%, -10% DC Inputs Input voltage 5.6 k AD conversion data 0 to 10.5 V (in increments of 0.1 V) Note: Can be selected using the input filter settings. Expansion I/O Units AC Inputs (Not Isolated) Specifications Circuit drawing 100 to 240 VAC +10%, -15%, 50/60 Hz Input impedance 680 k Input current 0.15 mA/100 VAC, 0.35 mA/240 VAC IN ON voltage 80 VAC min. IN OFF voltage 25 VAC max. ON response time 50 ms or 70 ms at 100 VAC (See note.) 100 ms or 120 ms at 240 VAC (See note.) Off response time Internal circuit Item Input voltage 330 k 300 k 51 k 100 to 240 VAC N L Note: Can be selected using the input filter settings. DC Inputs (ZEN-8E1DR: Not Isolated, ZEN-8E1DT: Photocoupler Isolated) Item Specifications Circuit drawing Input voltage 12 to 24 VDC +20%, -10% Input impedance 6.5 k IN Input current 3.7 mA (typ.)/24 VDC IN ON voltage 8 VDC min. OFF voltage 5 VDC max. ON response time 15 ms or 50 ms (See note 1.) 12 to 24 VDC COM 6.2 k (See note 2.) 1.8 k Internal circuit OFF response time Note: 1. Can be selected using the input filter settings. 2. The ZEN-8E1DT has no +/- terminals. There is no need to supply power. 10 ZEN V2 Units Output Specifications (CPU Units and Expansion I/O Units) Units with Relay Outputs Item Specifications Circuit drawing Maximum switching capacity 250 VAC/8 A (resistive load: cos = 1) 24 VDC/5 A (resistive load) Use the following values for the total of all outputs. CPU Units with 10 I/O points: 20 A max. (15 A max. for Communications-type CPU Units) CPU Units with 20 I/O points: 40 A max. Expansion I/O Units: 20 A max. Q0 to Q3/OUT0 to OUT3 L Electrical Resistive load: 50,000 times (cos = 1) Inductive load: 50,000 times (cos = 0.4) Mechanical 10 million times ON response time 15 ms max. OFF response time 5 ms max. COM Models with 20 I/O points only L Q5/Q7 The life under the worst conditions, of the output contacts used in ZEN relay outputs is given in the above table. Guidelines for the normal life of the relays are shown in the diagram on the right. Note: The switching capacity, switching durability, and applicable load area when actually using the relay depend on the type of load, environmental conditions, and switching conditions. Therefore, be sure to confirm these conditions for the actual machine before use. Life-test Curve (Reference Value) Usage: 360 times/hour Life (x 103) Relay life Q4/Q6 L Internal circuit Minimum switching capacity 5 VDC/10 mA (resistive load) (failure level: P, reference value) 1,000 250-VAC resistive load 24-VDC resistive load/ 250-VAC inductive load 24-VDC inductive load (t = 7 ms) 500 300 100 50 30 10 0 2 4 6 8 10 Contact current (A) Units with Transistor Outputs Item Specifications Maximum switching capacity 24 VDC +20%, 500 mA Leakage current Circuit drawing Each circuit is configured with an independent common circuit 390 0.1 mA max. Q0 to Q3/OUT0 to OUT3 28.8 VDC max. L L 1 k Residual voltage 1.5 V max. Internal circuit ON response time 1 ms max. COM + L Q4/Q6 OFF response time 28.8 VDC max. Models with 20 I/O points only 1 ms max. L Q5/Q7 11 ZEN V2 Units Connections Input Connections Units with AC Power Supply Note: 1. Supply power to both the CPU Unit and Expansion I/O Units from the same power supply and turn them ON and OFF at the same time. 2. The input circuit commons for CPU Units with AC power supply are internally connected to the N terminal of the power supply circuit. Wire the L terminal to the power supply of the input device. 3. The input circuit commons for Expansion I/O Units with AC power supply are internally connected to the N terminal of the power supply circuit. Wire the L terminal to the power supply of the input device. CPU Units with 10 I/O Points and Expansion I/O Units 100 to 240 VAC, 50/60 Hz L N Circuit protector Input device L N NC I0 I1 I2 I3 I4 I5 L CPU Unit with 10 I/O points N IN0 IN1 IN2 IN3 ZEN-8E1AR Expansion I/O Unit (AC input type) CPU Units with 20 I/O Points and Expansion I/O Units 100 to 240 VAC, 50/60 Hz L N Circuit protector Input device L N NC I0 I1 I2 I3 I4 I5 NC I6 I7 I8 I9 Ia Ib CPU Unit with 20 I/O points L N IN0 IN1 IN2 IN3 ZEN-8E1AR Expansion I/O Unit (AC input type) Connecting Expansion I/O Units with DC Inputs 100 to 240 VAC, 50/60 Hz DC power supply N L Circuit protector Input device Input device L N NC I0 I1 I2 CPU Unit with 10 I/O points I3 I4 I5 COM IN0 IN1 IN2 IN3 ZEN-8E1DR Expansion I/O Unit (DC inputs and relay outputs) COM IN0 IN1 IN2 IN3 ZEN-8E1DT Expansion I/O Unit (DC inputs and transistor outputs) Note: When connecting Expansion I/O Units with DC inputs to a CPU Unit with an AC power supply, the burst noise immunity will be 1 kV (IEC 61000-4-4). 12 ZEN V2 Units Units with DC Power Supply Note: 1. Be sure to connect the COM terminal before turning ON the power supply. If the COM terminal is disconnected, or if the wiring is changed after turning ON the power supply, a malfunction may occur. 2. Apply the power supply voltage through a relay or switch in such a way that the voltage reaches the rated value within 4 s. If the voltage is applied gradually, the power may not be reset or unstable output operations may result. CPU Units with 10 I/O Points For Connections to Negative (-) Common (PNP Connection) 12 to 24 VDC Input device COM CPU Unit with 10 I/O points For Connecting Analog Input Devices to Input Terminals I4 and I5 12 to 24 VDC COM I 0 I1 I2 I3 I4 I5 CPU Unit with 10 I/O points Note: When connecting an analog input device, always connect the negative side to the COM terminal. For Connections to Positive (+) Common (NPN Connection) 12 to 24 VDC Input device + - COM I0 I1 I2 I3 I4 I5 CPU Unit with 10 I/O points Note: When connected to the positive (+) common, I4 and I5 cannot be used as analog inputs. 13 ZEN V2 Units CPU Units with 20 I/O Points For Connections to a Negative Common (PNP Connection) 12 to 24 VDC Input device COM I0 I1 I2 I3 I4 I5 NC I6 I7 I8 I9 Ia Ib CPU Unit with 20 I/O points For Connecting Analog Input Devices to Input Terminals Ia and Ib 12 to 24 VDC COM I 0 I1 I2 I3 I4 I5 NC I6 I 7 I8 I9 Ia Ib CPU Unit with 20 I/O points Note: When connecting an analog input device, always connect the negative side to the COM terminal. For Connections to Positive (+) Common (NPN Connection) 12 to 24 VDC Input device + - COM I0 I1 I2 I3 I4 I5 NC I6 I7 I8 I9 Ia Ib CPU Units with 20 I/O points Note: When connected to the positive (+) common, Ia and Ib cannot be used as analog inputs. Expansion I/O Units Note: 1. Supply power to both the CPU Unit and Expansion I/O Units from the same power supply and turn them ON and OFF at the same time. 2. ZEN-8E1AR Expansion I/O Units with AC inputs cannot be connected to CPU Units with DC power supply. 3. The input circuit commons for ZEN-8E1DR Expansion I/O Units with relay outputs are each internally connected to one side of the power supply circuit (COM terminal). 4. ZEN-8E1DT Expansion I/O Units with transistor outputs do not need to be connected to a power supply. For Connections to Negative (-) Common 12 to 24 VDC Input device Input device + - COM I0 I1 I2 I3 I4 I5 CPU Unit with 10 I/O points COM IN0 IN1 IN2 IN3 ZEN-8E1DR Expansion I/O Unit (DC input, relay output) NC COM IN0 IN1 IN2 IN3 ZEN-8E1DT Expansion I/O Unit (DC input, transistor output) For Connections to Positive (+) Common 12 to 24 VDC Input device Input device + - COM I0 I1 I2 CPU Unit with 10 I/O points I3 I4 I5 COM IN0 IN1 IN2 IN3 ZEN-8E1DR Expansion I/O Unit (DC input, relay output) NC COM IN0 IN1 IN2 IN3 ZEN-8E1DT Expansion I/O Unit (DC input, transistor output) 14 ZEN V2 Units Output Connections Units with Relay Outputs All four relay output circuits in both CPU Units with 10 I/O points and Expansion I/O Units have independent contacts. CPU Units with 20 I/O points have 4 independent contacts (Q0 to Q3) and the remaining four (Q4 to Q7) have 2 points/common. There are no restrictions for polarity. Standard LCD-type CPU Units, LED-type CPU Units, and Economy-type CPU Units Communications-type CPU Units Load Load Q7 Expansion I/O Unit OUT OUT 0 1 Load RS-485 OUT 3 Load OUT 2 Load B (+) A (-) Load Load Load Q2 Load Q1 Q6 Expansion I/O Units Communications-type CPU Unit Q0 Q5 Load Q4 Load Q3 Load Q2 Load Q1 Load Q0 Load Q3 Load Q2 Load Q1 Load Q0 CPU Unit with 20 I/O Points Load CPU Unit with 10 I/O Points Units with Transistor Outputs For CPU Units with 10 I/O points and Expansion I/O Units, all 4 outputs in the transistor output circuits have independent circuits. The terminals of output have polarity given on the terminal block, but no problem will result from reversing the connection positions of the power supply and load. For CPU Units with 20 I/O points, outputs Q0 to Q3 in the transistor output circuits have independent circuits and outputs Q4 to Q7 have 2 points per common. The terminals of output Q0 to Q3 have polarity given on the terminal block, but no problem will result from reversing the connection positions of the power supply and load. Note: Do not exceed a cable length of 10 m when connecting transistor outputs. Standard LCD-type CPU Units and LED-type CPU Units without Display Load - + - Q6 Q7 Load - + - Q4 Q5 Load + - Q3 Load + - Q2 Load Load + - Q1 Q0 to Q3 Load Load Q0 to Q3 Load + - Q0 + - Q3 Load Load + - Q2 Load + - Q1 Load + - Q0 CPU Unit with 20 I/O Points Load CPU Unit with 10 I/O Points Expansion I/O Units Expansion I/O Unit - + - + OUT2 OUT3 - OUT1 Load OUT0 to OUT3 Load + Load Load Load + - OUT0 15 ZEN V2 Units Nomenclature Standard LCD-type, Economy-type, and Communications-type CPU Units (Except for ZEN-@C2@@-@-V2 Models) CPU Units with 10 I/O Points Left side Front Right side Power supply Input terminals terminals Operation buttons Display screen Output terminals (See note 1.) Battery Unit connector (Remove the seal to connect the Battery Unit.) Display Screen Expansion Unit connector cover (See note 2.) Do not remove this cover until connecting an Expansion Unit. ZEN Support Software connector (also used for Memory Cassette.) Front Power supply terminals Right side Input terminals I6 I7 I8 I9 Ia Operation buttons Display screen Q4 Q5 Q6 Meaning RUN Display while in RUN mode. ERR Indicates an error. Displayed when there is a higher-level menu or ladder program line than the one currently displayed. Displayed when there is a lower-level menu or ladder program line than the one currently displayed. Ib 20C1AR-A-V2 Displayed when a password had been set. Q7 Output terminals Battery Unit connector (Remove the seal to connect the Battery Unit.) Icon Meanings Icon CPU Units with 20 I/O Points Left side RUN ERR ZEN Support Software connector (also used for Memory Cassette.) Expansion Unit connector cover (See note 2.) Do not remove this cover until connecting an Expansion Unit. Note: 1. With Communications-type CPU Units, the Q3 terminal is used as the RS-485 terminal. For details, refer to Output Connections on page 15. 2. Economy-type CPU Units are not provided with an Expansion Unit connector. Do not remove the cover. 16 ZEN V2 Units Operation Buttons DEL Button ALT Button Operation Button Names and Operations Button Function Menus Cursor Buttons ESC Button Writing ladder program Setting parameters Button input bit (See page 24.) DEL --- Deletes inputs, outputs, connection --lines, and blank lines. B6 ON ALT --- * Switches between normally open --and normally closed conditions. * Changes to connection line write mode. * Inserts a line. B7 ON Up Moves the cursor * Moves the cursor up and down. up and down. * Selects bit types and functions. * Moves the cursor up B5 ON and down. * Changes numerals and parameters. B2 ON --- Moves the cursor right B3 ON and left. OK Button Down Left Moves the cursor right and left. Right B4 ON ESC Returns to the Cancels the setting and returns to previous screen. the previous operation. Cancels the setting and returns to the previous operation. B0 ON OK Selects the Confirms the setting. menu item at the cursor position. Confirms the setting. B1 ON 17 ZEN V2 Units LED-type CPU Units without Display (ZEN-@C2@@-@-V2) CPU Units with 10 I/O Points Left side Front Power supply terminals Right side Input terminals LED indicators LED Indicators Output terminals Battery Unit connector (Remove the seal to connect the Battery Unit.) ZEN Support Software connector (also used for Memory Cassette.) Expansion Unit connector cover Do not remove this cover until connecting an Expansion Unit. Front Power supply terminals LED Green Lit Right side Input terminals I6 I7 ERROR I8 I9 Ia Status Green Lit Not lit RUN CPU Units with 20 I/O Points Left side Name POWER Red Ib Power is ON. Power is OFF. Operating (RUN) Not lit Stopped (STOP) Lit Error occurred. Not lit Normal 20C2AR-A-V2 Q4 Q5 Q6 Q7 Output terminals Battery Unit connector (Remove the seal to connect the Battery Unit.) Expansion Unit connector cover Do not remove this cover until connecting an Expansion I/O Unit. ZEN Support Software connector (also used for Memory Cassette.) LED indicators Expansion I/O Units (ZEN-8E1@@) Left side Front Power supply terminals Right side Input terminals Output terminals Expansion I/O Unit connector Expansion I/O Unit connector cover Do not remove this cover until connecting an Expansion I/O Unit. Precaution when Using Expansion I/O Units: Up to three Expansion I/O Units can be connected. When removing the Expansion Unit connector cover from the side of the CPU Unit, use a Phillips screwdriver to remove the cover screw, and then insert a flat-blade screw driver in the cover gap to remove the cover, as shown at the right. Phillips screwdriver Flat-blade screwdriver 18 ZEN V2 Units Operation Bits Name Symbol Bit addresses No. of points Operation Details (See note 1.) Input bits I I0 to Ib 12 (See note 2.) Reflect the ON/OFF status of the input devices connected to the input terminals on the CPU Unit. Expansion input bits X X0 to Xb Reflect the ON/OFF status of the input devices connected to the input terminals on the Expansion I/O Units. Output bits Q Q0 to Q7 8 (See note 2.) The ON/OFF status of these output bits is used to control the output devices connected to the output terminals on the CPU Unit. Expansion output bits Y Y0 to Yb 12 The ON/OFF status of these output bits is used to control the output devices connected to the output terminals on the Expansion I/O Units. Work bits M M0 to Mf 16 Work bits can be used only within the ZEN program. I/Os for external devices cannot be made (i.e., all I/O is internal). Holding bits H H0 to Hf 16 Used the same as the work bits. However, if the power to the ZEN is turned OFF, these bits also maintain the previous ON/OFF status. Timers T T0 to Tf 16 12 X: ON-delay timer Functions are selected from the screen when parameter settings are made. : OFF-delay timer O: One-shot pulse timer Time units can be selected from the following: 0.01-s unit: 0.01 to 99.99 s min/s unit: 00 min 01 s to 99 min 59 s h/s unit: 00 h 01 min to 99 h 59 min F: Flashing pulse timer --- 1 2 W: Twin timer Holding timers # #0 to #7 8 Hold the present value being counted even if the trigger input or power supply is turned OFF and continue timing when the trigger input or power is restored. Counters C C0 to Cf 16 Reversible 4-digit counters that can be incremented and decremented. 8-digit counter F F0 1 Reversible 8-digit counters that can be incremented and decremented. CPU Units with DC power supply support a high-speed counter up to 150 Hz. For details, refer to 8-digit Counter Operation on page 21. Weekly timers (See note 3.) @ @0 to @f 16 Turn ON and OFF during specified times on specified days. Calendar timers (See note 3.) * *0 to *f 16 Turn ON and OFF between specified dates. Display bits (See note 3.) D D0 to Df 16 Display user-specified messages, times, timer/counter present values, or analog-converted values. Analog comparator bits A A0 to A3 4 Used as program input conditions to output analog comparator comparison results. These bits can be used only for CPU Units with DC power supply. Timer/counter comparator bits P P0 to Pf 16 Compare the present values of timers (T), holding timers (#), and counters (C). Comparison can be made between the same two counters or timers, or with constants. 8-digit counter comparator bits G G0 to G3 4 Used to compare the present values of 8-digit counters (F) and output the comparison results. Button input bits (See note 3.) B B0 to B7 8 Used as program input conditions and turn ON when operation buttons are pressed in RUN Mode. 3 4 5 6 7 8 9 10 11 12 Note: 1. For details, refer to the indicated item numbers on the following pages. 2. CPU Units with 10 I/O points have 6 input bits (I0 to I5) and 4 output bits (Q0 to Q3). Output bit Q3 of Communications-type CPU Units, however, cannot be output externally. It can be used as a work bit. 3. These input bits are not supported by LED-type CPU Units without display. 1. Additional Bit Output Functions [: Normal Set/Reset operation S: Set I0 I1 [Q0 A: Alternate R: Reset I2 SQ1 I3 RQ1 I0 I1 I2 Q0 Q1 Q1 Q0 will turn ON or OFF depending Q1 will stay ON once the execution Q1 is forced OFF when the on the ON/OFF status of the condition I1 has turned ON once. A execution condition I2 is turned execution condition I0. reset is used to turn Q1 OFF. ON. AQ2 I3 Q2 Q2 alternates between turning ON and OFF when the execution condition I3 turns ON. 19 ZEN V2 Units 2. Using Timers and Holding Timers X: ON-delay timer Trigger input Turns ON after set delay after the trigger input turns ON. Basic Operation Reset input Setting Trigger input Timing Present value 0 Timer bit Output Main Applications When delayed operation or a time lag is required. : OFF-delay timer Trigger input Reset input Setting Stays ON while the trigger input is ON and turns OFF after a set delay after the trigger input has turned OFF. Basic Operation Trigger input Timing Present value 0 Timer bit Output Main Applications Useful for OFF delay circuits for lights or fans O: One-shot pulse timer Trigger input Turns ON for a set period after the trigger input turns ON and regardless of how long the trigger input remains ON. Basic Operation Reset input Trigger input Setting Present value 0 Timer bit Timing Output Main Applications Useful for set operations where operation is always required during a regular period only. F: Flashing pulse timer Trigger input Reset input Repeatedly turns ON and OFF in a set cycle while the trigger input is ON. Basic Operation Trigger input Timing Setting Present value 0 Timer bit Timing Timing Timing Output Main Applications Useful for flashing emergency lights or sounding buzzers as the output for an alarm circuit. W: Twin timer Trigger input Reset input ON-time OFF-time Repeatedly turns ON and OFF in a set cycle while the trigger input is ON. Independent ON- and OFF-time settings are possible. Basic Operation Trigger input Timing Timing Timing Timing (OFF-time) (ON-time) (OFF-time) (ON-time) Present value 0 Timer bit Output Main Applications Useful for intermittent (ON/OFF) operation, such as that used for fans. 3. Using Holding Timers X: ON-delay timer Trigger input Reset input Setting Present value Turns ON after set delay after the trigger input turns ON. The present value is held while the trigger input is OFF. Main Applications To continue operation after momentary power loss or power interruptions. Also can be used when delayed operation or a time lag is required. 0 Timer bit 20 ZEN V2 Units 4. Counter Operation The counter bit turns ON when the counter value (present value) reaches the set value (present value set value). The counter returns to 0 and the counter bit turns OFF when the reset input turns ON. Count inputs are not accepted while the reset input is turned ON. The counter present value and counter bit (ON/OFF) are held even if the operating mode is changed or the power supply is interrupted. Counter direction specification input Counter input Reset input Set value Present value 0000 Counter bit 5. 8-digit Counter Operation Count speed H High speed Operation The counter bit turns ON when the counter value (present value) reaches the set value (present value set value). The counter returns to 0 and the counter bit turns OFF when the reset input turns ON. Count inputs are not accepted while the reset input is turned ON. The counter present value and counter bit (ON/OFF) are held even if the operating mode is changed or the power supply is interrupted. High-speed Operation For CPU Units with DC power supply, high-speed operation is possible for input I0 only. (Maximum counting speed: 150 Hz) Counter direction specification input Counter input Reset input L Low speed Set value Present value 00000000 Counter bit Counting Speed of the 8-digit Counter The maximum counting speed of the 8-digit counter is 150 Hz. When the ladder program volume is large, however, this speed will be less than 150 Hz. Calculate the cycle time and confirm the maximum counting speed using the following formula. The calculation serves as a guide only, so allow a suitable margin in the actual machine. Maximum counting speed = 1,000,000 Hz/ Cycle time (s) x 2.2 Hz Note: Even if the calculated maximum counting speed exceeds 150 Hz using this formula, the maximum counting speed will be 150 Hz. Cycle Time Calculation Method Cycle time (s) = Common processing time + Processing time taken when Expansion I/O Units are connected + Ladder program execution time + Communications processing time (only for CPU Units with communications) Refer to the following table for ZEN execution times. The execution times are provided as a guide. External factors, button operations, execution of ZEN Support Software operations, and timing of the processing affects the actual processing times. Common Processing Time Ladder Program Execution Time Unit type Common processing time Standard LCD-type CPU Units, Economy-type CPU Units, and Communications-type CPU Units 850 s LED-type CPU Units 200 s Expansion I/O Unit Processing Time Unit type Expansion I/O Units Expansion I/O Unit processing time 160 s per Unit Communications Processing Time (only for CPU Units with Communications) Reading information 170 s Writing set values Twin timer: 11,000 s Others: 6,000 s Writing time information 820 s 30 s: Line containing program 7 s: Empty lines Per line Per output CPU Unit output bits (Q) 4 s *1 *2 Expansion I/O Unit output bits (Y) Work bits (M) Holding bits (H) Timers (T)/Holding timers (#) 15 s Counters (C)/8-Digit Counters (F) 13 s Display bits (D) Hour and minute (CLK)/Year and month (DAT)/Month and day (DAT1): 21 s Timers (T)/Holding timers (#)/ Counters (C)/Analog comparators: 28 s Characters (CHR)/8-Digit Counters (F): 38 s Weekly timers (@) 4 s Calendar timers (*) 1 s Analog comparators (A) 3 s Comparators (P) 7 s 8-Digit Comparators (G) 4 s *3 *4 *5 21 ZEN V2 Units Example Calculation of Ladder Program Execution Time 00 01 02 03 04 I0 I1 I2 [Q0 Q0 *5: P0 I3 *4: @0 [Q1 I4 @0 Ladder program execution time = (30 x 5) + (4 x 3) + 15 + 4 + 7 = 188 (s) *3: T0 (output) TT0 P0 T0 *2: Q (outputs) for 3 points [Q2 *1: For 5 lines 6. Weekly Timer Operation (Only for Standard LCD-type, Economy-type, and Communicationstype CPU Units) Weekly timer mode N Normal operation Operation Typical Timer Operation Between Tuesday and Friday every week, the weekly timer bit turns ON from 08:15 until 17:30. Date setting Time setting 24:00 Stop time 17:30 Start time 8:15 0:00 Mon Tues Wed Thurs Fri Sat Sun Weekly timer bit Timer Operation Extending Past Midnight Between Tuesday and Friday every week, the weekly timer bit turns ON from 23:00 until 05:00 the following day. Time setting Date setting Start time Stop time 24:00 23:00 Mon Tues Wed Mon Tues Wed Mon Tues Wed Thurs Fri Sat Sun Fri Sat Sun Fri Sat Sun 5:00 0:00 Weekly timer bit Multipleday operation The weekly timer bit turns ON from Tuesday 08:15 until Friday 17:30 every week. Date setting 24:00 Time setting D Stop time 17:30 Start time 8:15 0:00 Thurs Weekly timer bit Pulseoutput operation Date setting 24:00 Time setting P Start time Thurs Every week, from Tuesday through Friday, the weekly timer bit turns ON for 15 minutes and thirty seconds from 08:15. 8:15 0:00 Weekly timer bit Operation time setting: 15 minutes, 30 seconds 7. Calendar Timer Operation (Only for Standard LCD-type, Economy-type, and Communications-type CPU Units) Dec 31 End date Sep 1 Start date Apr 1 Jan 1 Calendar timer bit The calendar timer bit is ON between 1 April and 31 August. 22 ZEN V2 Units 8. Display Settings (Only for Standard LCD-type, Economy-type, and Communications-type CPU Units) Backlight/display L0: No backlight; No switching to display function screen (See note 1.) function screen L1: Backlight; No switching to display function screen (See note 1.) switching L2: No backlight; Switching to display function screen (See note 2.) L3: Backlight; Switching to display function screen (See note 2.) Display start position X (digit): 00 to 11 Y (line): 0 to 3 Display object CHR Characters (Up to 12 characters - English, numerals, symbols) DAT Month/day (5 digits @@/@@) CLK hour/minute (5 digits @@:@@) I4 to I5 Analog-converted value (4 digits @@:@) Monitoring X00 X11 Y0 to Y3 T0 to Tf Timer present value (5 digits @@.@@) #0 to #7 Holding timer present value (5 digits @@.@@) C0 to Cf Counter present value (4 digits @@@@) F0 8-digit counter present value(8 digits @@@@@@@@) A: Can read settings during operation. D: Cannot read settings during operation. Note: 1. When L0 or L1 are selected to disable the display function screen, the display function screen will not be displayed automatically. Use operation buttons to move to the display function screen. 2. When L2 or L3 are selected, the ZEN switches to the display function screen if the display function is enabled and the specified data is displayed. The Main Screen will no longer be displayed. To display the Main Screen, change the CPU Unit to STOP mode. 9. Analog Comparator Operation * Example 1 (When comparison shows analog input 1 5.2 V) * Example 2 (When comparison shows analog input 1 is analog input 2) Setting 10.5 10.0 Converted value 10.0 Analog input 1 5.2 Analog input 2 00.0 0.0 10.5 V 00.0 10.0 V Input voltage Analog comparator bit Analog comparator bit 10. Timer/Counter Comparator Operation * Example 1 (When comparison setting is holding timer #0 12 min 34 s) Setting * Example 2 (When comparison setting is counter 1 (C1) counter 2 (C2)) C1 present value #0 present value 12 min 34 s C2 present value 0 Comparator bit Comparator bit 11. 8-digit Counter Comparator Operation * When comparison setting is 8-digit counter F0 12000000 F0 present value 12000000 0 8-digit counter comparator bit 23 ZEN V2 Units 12. Specifications for Button Input Bits (Only for Standard LCD-type, Economy-type, and Communications-type CPU Units) The operation buttons are used to perform operations for input bits. They are useful when checking program operations or forcefully resetting holding timers or counters. ALT Button input 7 (B7) DEL Button input 6 (B6) Button input 5 (B5) Button input 4 (B4) Button input 3 (B3) Button input 2 (B2) OK Button input 1 (B1) ESC Button input 0 (B0) Password Function (Only for Standard LCD-type, Economy-type, and Communications-type CPU Units) The ZEN has a password function to prevent incorrect manipulation of ladder programs or settings data by other operators. When the password (0000 to 9999) is set, the following operations will not be possible unless the password is input correctly. * * * * * * * Editing ladder program Program all clear Monitoring ladder programs Changing/clearing password Changing backlight OFF time Setting input filter Setting RS-485 communications 24 ZEN V2 Units ZEN Support Software Functions Note: Always use ZEN-SOFT01-V4 as the Support Software for the V2 CPU Unit. Creating Ladder Programs Simulating Ladder Programs ZEN ladder programs can be created with ease. The simulation function makes it possible to check whether correct operation is performed without connecting to the ZEN. Note: The Edit Input Dialog Box is displayed when an input bit is inserted. Timer, counter, and other parameter settings are also set in the Edit Input Dialog Box. They cannot be set in the Edit Output Dialog Box. Monitoring Ladder Programs Printing Ladder Programs The operating status can be monitored from the Support Software by connecting to the ZEN using a Connecting Cable (ZEN-CIF01). Ladder programs and I/O comments, as well as timer, counter and other parameter settings can be printed. Note: Both RS-485 communications and the ZEN monitoring function cannot be used at the same time with Communications-type CPU Units. The Support Software can also be used to save files and edit comments. Refer to the ZEN Support Software Operation Manual (Cat. No. Z184-E1-03) for details. 25 ZEN V2 Units Dimensions Note: All units are in millimeters unless otherwise indicated. CPU Units CPU Units with 10 I/O Points ZEN-10C@@@-@-V2 Unit Mounting Holes 56 44 70 60 4.5 5.5 90 80 Note: Use M4 screws for mounting. 45 Mounting Hole Dimensions Two, M4 4.7 (Sliding: 13 max.) CPU Units with 20 I/O Points ZEN-20C@@@-@-V2 80 56 44 122.5 112.5 I6 I7 I8 I9 Ia Ib 60 (112.5) * * The dimensions in parentheses refer to models with 20 I/O points. 20C1AR-A-V2 90 80 45 Q4 Q5 Q6 Q7 4.7 (Sliding: 13 max.) Dimensions with Battery Unit CPU Units with 10 I/O Points CPU Units with 20 I/O Points 140 87.5 17.5 44 122.5 17.5 70 I6 I7 I8 I9 Ia Ib ZEN-BAT01 20C1AR-A-V2 45 45 Q4 Q5 Q6 Q7 26 ZEN V2 Units Expansion I/O Units DIN Track Hook (Using Slide) ZEN-8E1@@ Mounting Hole Dimensions 7.6 2 54 Two, 3.5 dia. 90 97 Two, M3 17.5 44 35 90 45 97 2 7.6 Power Supply Unit ZEN-PA03024 70 60 90 56 44 45 80 Mounting Hole Dimensions Two, M4 80 60 4.7 (Sliding: 13 max.) Accessories (Order Separately) Battery Unit Memory Cassette Connecting Cable ZEN-BAT01 ZEN-ME01 ZEN-CIF01 Cable length: 2m 27 ZEN V2 Units Track Mounting Accessories (Order Separately) Mounting Track PFP-100N PFP-50N PFP-100N2 16 7.30.15 4.5 4.5 350.3 15 25 10 25 25 1,000 (500) * 10 25 15 (5) * 270.15 1 350.3 27 15 25 10 * The numbers in parentheses () are dimensions for the PFP-50N. End Plate PFP-M 1,000 10 25 15 6.2 16 12 5 1.8 1.5 1 Spacer 10 M4 x 8 pan-head screw 25 25 29.2 24 PFP-S 1 50 35.5 35.3 1.8 34.8 44.3 11.5 10 M4 spring washer 1.3 4.8 16.5 Precautions when Selecting ZEN Programmable Relays Changes in Comparison with Previous Models * The power supply and transistor output voltage ranges for CPU Units and Expansion I/O Units with DC power supply has been expanded to 10.8 to 28.8 VDC. * The width of Expansion I/O Units has been reduced by half and only 8-point models are available. * The connection method between the CPU Unit and Expansion I/O Units has changed. * Twin timer operation has been added to timers. * Multiple-day operation and pulse-output operation has been added to weekly timers. * An 8-digit counter and 8-digit comparators have been added. * The accuracy of analog inputs has been increased to 1.5% FS. * The timing accuracy of weekly timers and calendar timers has been increased to 15 s or less per month (at 25C). * Australia and New Zealand Daylight Saving Time (DST) settings have been added. * CPU Units with RS-485 communications and economic CPU Units have been added. * The heat slits in the cases of CPU Units and Expansion I/O Units have been removed to prevent foreign matter from entering. Model numbers have been changed to reflect the improved functionality. Previous Model Numbers ZEN-@C@@@-@ ZEN-@C@@@-@-V1 ZEN-@E@@ (Pre-V1 CPU Units) (V1 CPU Units) (4E/8E-type Expansion I/O Units) New Model Numbers ZEN-@C@@@-@-V2 ZEN-8E1@@ (V2 CPU Units) (8E1-type Expansion I/O Unit) Memory Cassettes, Connecting Cables, and Battery Units have not been changed and can be used as they are with the new models. 28 ZEN V2 Units Precautions when Switching from Previous Units * * * * Previous models of Expansion I/O Units cannot be connected to V2 CPU Units. ZEN-8E1@R Expansion I/O Units with relay outputs need to be connected to a power supply. A ZEN-@C@D@-D-V2 CPU Unit with DC power supply cannot be connected to an Expansion I/O Unit with AC inputs. When connecting Expansion I/O Units with DC inputs to a CPU Unit with an AC power supply, the burst noise immunity will be 1 kV (IEC 610004-4). * There is no change to the 8 A per contact for relay output, but the total output for all contacts must be as follows: Units with 10 I/O Points: 20 A max. (15 A max. for Communications-type CPU Units) Units with 20 I/O Points: 40 A max. Expansion I/O Units: 20 A max. * Always use the ZEN-SOFT01-V4 Support Software for V2 CPU Units. * Input wiring for CPU Units with DC power supplies differs from that for Pre-V1 CPU Units. Refer to the following diagrams. V2 and V1 CPU Units Pre-V1 CPU Units COM wiring depends on whether a negative common or positive common is being used. Positive (+) COM Wiring Negative (-) COM Wiring The input circuit common terminal is connected internally to the negative (-) side of the power supply circuit. 24 VDC 24 VDC COM wiring required. COM wiring required. 24 VDC Analog inputs possible. Input devices + - COM Analog inputs possible. Input devices + - Input devices COM + - NC CPU Unit with 10 I/O Points CPU Unit with 10 I/O Points CPU Unit with 10 I/O Points Note: I4 and I5 (Ia and Ib for CPU Units with 20 I/O points) cannot be used as analog input terminals. Changes Ratings and Specifications CPU Units Item V2 Units V1 Units Pre-V1 Units Rated power Models with DC supply voltage power supply 10.8 to 28.8 VDC 20.4 to 26.4 VDC Power consumption See Ratings on page 7. 30 VA max. (with 3 Expansion I/O Units connected) Models with AC power supply Models with DC power supply 6.5 W max. (with 3 Expansion I/O Units connected) Inrush current Models with AC power supply Models with 10 I/O points: 4.5 A max. Models with 20 I/O points: 4.5 A max. 40 A max. Models with DC power supply Models with 10 I/O points: 30 A max. Models with 20 I/O points: 30 A max. 20 A max. DC inputs I0 to I3 (See note 1.) DC inputs I4 to I5 (See note 2.) Input impedance 5.3 k 5 k ON voltage 8 VDC min. 16 VDC min. Input common Independent common terminal Internally connected to power supply terminal Input impedance 5.2 to 5.5 k 5 k ON voltage 8 VDC min. 16 VDC min. OFF voltage 3 VDC max. 5 VDC max. 100 k min. 150 k min. 1.5% FS (at ambient operating temperature within rated range) 10% FS (at ambient operating temperature within rated range) 8 A per output Total for all outputs must be as follows: Units with 10 I/O Points: 20 A max. (15 A max. for Communications-type CPU Units) Units with 20 I/O Points: 40 A max. 8 A per output Analog inputs Input impedance I4 to I5 Accuracy (See note 2.) Control outputs 4.8 k Relay outputs Transistor outputs 28.8 V max. 26.4 V max. Timing accuracy of weekly and calendar timers 15 s or less per month (at 25C) 2 min per month Mounting direction Standard (vertical) installation and horizontal installation Standard (vertical) installation Terminal block tightening torque 0.565 to 0.6 N*m (5 to 5.3 in-lb) 0.5 to 0.6 N*m Connectable Expansion I/O Units ZEN-8E1@ (See note 3.) ZEN-4E@ and ZEN-8E@ Case structure No heat slits Heat slits Note: 1. Units with 20 I/O Points: I0 to I9 2. Units with 20 I/O Points: Ia to Ib 3. Refer to page 31 for details on compatible combinations of CPU Units and Expansion I/O Units. 29 ZEN V2 Units Expansion I/O Units Item Model AC inputs DC inputs 8E1 type 4E/8E type Unit with 8 I/O Points Units with 4 input, 4 output, or 8 I/O points 83 k Input impedance 680 k Isolation No isolation Photocoupler Input common Internally connected to power supply terminal Independent common terminal Input voltage 10.8 to 28.8 VDC 20.4 to 26.4 VDC Input impedance 6.5 k 4.7 k Isolation ZEN-8E1DR: No isolation ZEN-8E1DT: Photocoupler Photocoupler ON voltage 8 VDC min. 16 VDC min. Input common ZEN-8E1DR: Internally connected to power supply Independent common terminal terminal ZEN-8E1DT: Independent common terminal Control output Relay outputs Transistor outputs 8 A per output Total for all outputs must be as follows: Units with 10 I/O Points: 20 A max. Units with 20 I/O Points: 40 A max. 8 A per output 28.8 V max. 26.4 V max. Mounting screws M3 (mounting holes on DIN Track hooks) M4 (mounting holes on Unit) Connectable CPU Unit V2 CPU Units (See note.) V1 or Pre-V1 CPU Units Dimensions (H x W x D) 90 x 35 x 56 mm 90 x 70 x 56 mm Case structure No heat slits Heat slits Note: Refer to page 31 for details on compatible combinations of CPU Units and Expansion I/O Units. Other Functions Item Bits V2 Units V1 Units Pre-V1 Units Timer operation ON-delay, OFF-delay, one-shot pulse, flushing pulse, twin timer operation ON-delay, OFF-delay, one-shot pulse, flushing pulse Weekly timer operation Timer operation, multiple-day operation, pulseoutput operation Timer operation Addition of bits 8-digit counter (1 counter, up to 150 Hz) 8-digit comparators (4 comparators) --- Daylight Saving Time (DST) Setting Manual, EU, US. Australia, New Zealand Manual, EU, US Items set for password Ladder program editing Program all clear Ladder monitoring Password change/clear Backlight shut-off time Input filter settings Node number setting (See note.) LCD contrast adjustment Not possible Possible Menus Node number setting window Node number setting window deleted (except for Units with communications). Node number setting window displayed. Modem initialization window Modem initialization window deleted (except for Units with communications). Modem initialization window displayed. RS-485 communications Models added with communications. ZEN-10C4@R-@-V2 --- Economy-type CPU Units Economy-type models added. --ZEN-@C3@R-@-V2 Expansion I/O Units cannot be connected. Other functions are the same as the standard LCD models. Ladder program editing Ladder monitoring Password change/clear Backlight shut-off time Input filter settings Node number setting Note: Not displayed for V2 CPU Units except for Units with Communications. 30 ZEN V2 Units Bits Name CPU Unit V2 Units 10 I/O points 6 points V1 Units 20 I/O points 10 I/O points 12 points Pre-V1 Units 20 I/O points 10 I/O points Input bits I Output bits Q 4 points (See note.) 8 points 6 points 12 points 6 points 4 points 8 points 4 points Timers T 16 points 8 points Holding timers # 8 points 4 points Counters C 16 points 8 points Weekly timers @ 16 points 8 points Calendar timers * 16 points 8 points Display bits D 16 points 8 points Work bits M 16 points Holding bits H 16 points Expansion input bits X 12 points Expansion output bits Y 12 points Analog comparator bits A 4 points Timer/counter comparator bits P 16 points 8-digit counter F 1 point --- 8-digit counter comparator bits G 4 points --- Note: Output bit Q3 of Communications-type CPU Units cannot be output externally. It can be used as a work bit. Compatible Combinations of CPU Units and Expansion I/O Units The Expansion I/O Units that can be connected to V2 CPU Units are different from those that can be connected to V1 CPU Units and previous CPU Units. Expansion I/O Units with AC Inputs cannot be connected to V2 CPU Units with DC Power Supplies. Expansion I/O Units cannot be connected to Economy-type CPU Units. CPU Units Version CPU Unit type V2 V1 and Pre-V1 Power supply Supported Expansion I/O Units Model Standard LCD type LED type Communications type AC ZEN-@C1AR-A-V2 ZEN-@C2AR-A-V2 ZEN-10C4AR-A-V2 ZEN-8E1AR ZEN-8E1DR ZEN-8E1DT Standard LCD type LED type DC ZEN-@C1D@-D-V2 ZEN-@C2D@-D-V2 ZEN-8E1DR ZEN-8E1DT Economy type AC ZEN-@C3AR-A-V2 Not supported. DC ZEN-@C3DR-D-V2 AC ZEN-@C1AR-A-V1 ZEN-@C1AR-A ZEN-@C2AR-A-V1 ZEN-@C2AR-A DC ZEN-@C1D@-D-V1 ZEN-@C1D@-D ZEN-@C2D@-D-V1 ZEN-@C2D@-D Standard LCD type LED type ZEN-4EA ZEN-4ED ZEN-4ER ZEN-8EAR ZEN-8EDR ZEN-8EDT Memory Cassette and CPU Unit Combinations Be aware of the following restrictions when using a Memory Cassette containing a program that was stored from a CPU Unit with a different version of system software. System software version of CPU Unit used to write the Memory Cassette System software version of CPU Unit used to read the Memory Cassette Ver. 1.0 Ver. 1.1 Ver. 2.0 (V1 CPU Units) 10 I/O points 20 I/O points Ver. 3.0 (V2 CPU Units) 10 I/O points 20 I/O points Ver. 1.0 OK OK OK OK OK OK Ver. 1.1 Restrictions (See note 1.) OK OK OK OK OK Restrictions (See note 2.) OK OK OK OK Ver. 2.0 (V1 CPU Units) 10 I/O points Restrictions (See notes 1 and 2.) 20 I/O points Restrictions Restrictions (See notes 1, 2, and 3.) (See notes 2 and 3.) Restrictions (See note 3.) OK Restrictions (See note 3.) OK Ver. 3.0 (V2 CPU Units) 10 I/O points Restrictions Restrictions (See notes 1, 2, and 4.) (See notes 2 and 4.) Restrictions (See note 4.) Restrictions (See note 4.) OK OK Restrictions Restrictions (See notes 2, 3, and 4.) (See note 4.) Restrictions (See note 4.) Restrictions (See note 3.) OK 20 I/O points Restrictions (See notes 1 to 4.) Note: 1. The display functions (display clear: -CD@ and day/month display: DAT1) cannot be used and will be ignored. 2. Only the memory area ranges supported by the pre-V1 CPU Units can be used for Timers, Holding Timers, Counters, Weekly Timers, Calendar Timers, and Displays (i.e., only half of each). 3. Only 6 inputs and 4 outputs can be used in the CPU Unit I/O bits. Any others will be ignored. 4. Twin timer operation for timers, multiple-day operation and pulse operation for weekly timers, the 8-digit counter, and 8-digit comparators cannot be used. New Zealand and Australia cannot be set for Daylight Saving Time (DST). 31 ZEN V2 Units Support Software and CPU Unit Combinations CPU Unit system software Support Software Ver. 1.0 ZEN-SOFT01 Ver. 2.0 ZEN-SOFT01-V2 Ver. 3.0 ZEN-SOFT01-V3 Ver. 4.1 ZEN-SOFT01-V4 Ver. 1.0 (Pre-V1 Units) OK OK Restrictions (See notes 1 and 2.) Restrictions (See notes 1, 2, and 3.) Ver. 1.1 (Pre-V1 Units) Restrictions (See note 1.) OK Restrictions (See note 2.) Restrictions (See notes 2 and 3.) Restrictions (See note 2.) OK Restrictions (See note 3.) 20 I/O points Not applicable. Not applicable. OK Restrictions (See note 3.) Not applicable. Not applicable. Not applicable. OK Ver. 2.0 (V1 CPU Units) 10 I/O points Restrictions (See notes 1 and 2.) Ver. 3.0 (V2 CPU Units) Note: 1. The display functions (display clear: -CD@ and day/month display: DAT1) cannot be used and will be ignored. 2. Only the memory area ranges supported by the pre-V1 CPU Units can be used for Timers, Holding Timers, Counters, Weekly Timers, Calendar Timers, and Displays (i.e., only half of each). 3. Twin timer operation for timers, multiple-day operation and pulse operation for weekly timers, the 8-digit counter, and 8-digit comparators cannot be used. New Zealand and Australia cannot be set for Daylight Saving Time (DST). Difference between ZEN Programmable Relays and PLC Ladder Program Execution ZEN Programmable Relays I1 I0 I2 [ Q0 0 Q0 1 I3 [ Q1 2 I4 3 TT0 T0 4 OMRON SYSMAC PLCs ZEN executes the entire ladder program (up to 96 lines) from the first to last line at one time. Each row is executed in order from left to right starting from the left bus bar. [ Q2 I1 Q0 1 I3 2 [ Q1 I4 3 4 TT0 T0 [ Q2 [ M0 M0 [ Q0 Q0 M0 When the following instructions are executed, Q0 turns ON/OFF at the same time as the other bits. I0 I0 I0 I0 PLCs execute ladder programs one rung (circuit) at a time, starting with the top rung and executing it in order from the left. When the END instruction is reached, the program is executed again from the first rung. END The ON/OFF status produced by an output contact will not be used as the input contact status in the same cycle, but it can be used in the next cycle. 0 I2 [ Q0 Executed sequentially from the bus bar. Bus bar 1 I0 0 0 [ M0 M0 [ Q0 Q0 M0 1 1 cycle 1 cycle 32 ZEN V2 Units Safety Precautions Refer to Safety Precautions for All Timers. !WARNING Serious human hazard may occasionally occur due to ignition or rupture of the lithium battery used in the Battery Unit. Do not short the battery terminals or charge, disassemble, deform under pressure, or incinerate the battery. Never use any battery that has been dropped on the floor or otherwise subjected to excessive shock. !CAUTION Electric shock, fire, or malfunction may occur. Do not disassemble, modify, or repair the ZEN or touch any of the internal parts. Electric shock may occur. Never touch the I/O terminals, computer connector, or Battery Unit connector while power is being supplied. Electric shock may occur. Do not remove the Expansion Unit connector cover unless an Expansion I/O Unit will be permanently installed. Fire may occasionally occur. Tighten the terminal screws to a torque of 0.565 to 0.6 N*m (5 to 5.3 in-lb). Precautions for Safe Use Please observe the following precautions for safe use of this product. Circuit Design * All interface connectors and battery connectors are live parts. They may not be directly connected to a Safety Extra Low Voltage (SELV) circuit or to accessible conductive parts. For programming units and personal computers use only the connecting cable ZEN-CIF01 (optional accessory) manufactured by OMRON. ZEN-CIF01 provides safe (reinforced) insulation between personal computers and ZEN. * Provide emergency stop circuits, external interlock circuits, limit circuits, and other safety circuits in addition to any provided within the ZEN control circuits to ensure safety of the overall system in the event of ZEN failure or external factors. * If the ZEN discovers an error during self-diagnosis, operation will be stopped and all outputs will be turned OFF. As a countermeasure for such problems, external safety measures must be provided to ensure safety in the overall system. * Outputs from the ZEN may remain ON or OFF due to faults in internal circuits such as output relay fusing or burning, or output transistor destruction. As a countermeasure for such problems, external safety measures must be provided to ensure safety in the overall system. * Fail-safe measures must be taken by the user to ensure overall system safety in the event of broken signal lines or momentary power interruptions. * The durability of the output relays is largely affected by the switching conditions. Confirm the operation of the system under actual operating conditions and set the switching frequency to ensure that adequate performance will be provided. Insulation faults and burning in the ZEN may result if relays are used after their performance has deteriorated. Connecting Expansion I/O Units * Supply power to both the CPU Unit and Expansion I/O Units from the same power supply and turn them ON and OFF at the same time. * When connecting Expansion I/O Units with DC inputs to a CPU Unit with an AC power supply, the burst noise immunity will be 1 kV (IEC 61000-4-4). * Expansion I/O Units with AC inputs (ZEN-8E1AR) cannot be connected to a CPU Unit with a DC power supply. System Startup and Program Changes * Check the user program for proper execution before actually running it on the Unit. * Disconnect the output lines from the system before testing operation in any system in which incorrect operation can result in injury or equipment damage. * Confirm safety before attempting any of the following operations. * Changing the operating mode (RUN/STOP). * Using the button switches. * Changing bit status or parameter settings. * Double-check all wiring before turning ON the power supply. * Refer to Cycle Time Calculation Method on page 21 and confirm that the increase in the cycle time will not affect operation. If the cycle time is too long, it may become impossible to read input signals accurately. The increase in the cycle time will be particularly noticeable when set values are written in RUN mode for a CPU Unit with communications (ZEN-10C4@R-@-V2). Installation and Wiring * Do not allow the ZEN to fall during installation. * Be sure that the DIN Track mounting levers, Memory Cassettes, Battery Units, cable connectors, and other items with locking devices are properly locked into place. Improper locking may result in malfunction. * For surface mounting, tighten mounting screws to the following torque. CPU Units: 1.03 N*m max. Expansion I/O Units: 0.46 N*m max. * Use wires with cross-sectional areas of 0.2 to 2.5 mm2 (equivalent to AWG24 to AWG14) for wiring and strip them for 6.5 mm. Handling * The environment of use for the ZEN is "Pollution degree 2" and "Overvoltage category II" specified in IEC60664-1. * Always use the ZEN within the rated ambient operating temperature and humidity. The rated ambient operating temperature is 0 to 55C (-25 to 55C for LED-type CPU Units). If the ZEN is used near sources of heat, such as a power supply, the internal temperature of the ZEN may increase, lowering the durability of the ZEN. * Discharge static electricity from your body, e.g., by touching a grounded metal plate, before touching any Unit. * The exterior of the Units will be damaged if it comes into contact with organic solvents (e.g., benzene or paint thinner), strong alkalies, or strong acids. Never allow such substances to come into contact with the Units. * Do not apply voltages exceeding the rated voltages. Internal elements may be destroyed. * Short failures or open failures may result from the destruction of output elements. Do not use loads that exceed the rated output current. Maintenance When replacing a CPU Unit, transfer to the new Unit and confirm all settings for clock data, internal holding bits, holding timers, and counters before starting operation again. Transportation and Storage * Use special packing boxes when transporting the ZEN and do not subject it to excessive shock or vibration or drop it during shipment. * Store the ZEN within the rated ranges. If the ZEN has been stored at -10C or lower, allow it to stand at room temperature for three hours or longer before turning ON the power supply. Precautions for Correct Use Installation Environment * Do not install the ZEN in the following locations. * Locations subject to radical changes in temperature 33 ZEN V2 Units * Locations with high humidity subject to condensation * Locations subject to excessive dust or dirt * Locations subject to corrosive gas * Locations subject to direct sunlight * Do not install the ZEN in locations subject to shock or vibration. Extended use in such locations may cause damage from stress. * In environments subject to static electricity (e.g., close to pipes conveying forming materials, powders, or fluid materials), separate the ZEN as far as possible from the source of static electricity. * The ZEN is neither waterproof nor oil-proof. Do not use it in locations subject to water or oil. * Use the ZEN within the allowable power supply voltage range. Be particularly careful in locations with bad power supply conditions, e.g., large fluctuations in the power supply voltage. * Do not install the ZEN in locations subject to excessive noise, which may cause the ZEN to fail. * Take appropriate and sufficient countermeasures when installing systems in the following locations: * Locations subject to strong electromagnetic fields * Locations subject to possible exposure to radioactivity Power Supply * Always turn OFF the power supply to the ZEN before attempting any of the following. * Assembling the ZEN * Connecting or disconnecting any cables or wiring * Attaching or removing the Memory Cassette * Attaching or removing the Battery Unit * If the power supply is interrupted for two days or more (at 25C), the internal capacitor will discharge and internal bit status and the contents of PV areas will be lost or corrupted and dates and times will be reset. When restarting operation after the power supply has been interrupted for an extended period of time, check the system in advance to confirm that no errors will occur. Handling * Connect connectors only after confirming that the direction or polarity is correct. * Failures could result if dust or dirt enters the ZEN. Always connect the connector cover to the computer connector whenever it is not being used. * Do not remove the label from the left side of the CPU Unit if a Battery Unit is not mounted. Other * The execution of the ladder program in the ZEN is different from that for other PLCs. Refer to Difference between ZEN Programmable Relays and PLC Ladder Program Execution on page 32. * Abide by all local ordinances and regulations when disposing of the ZEN. * The Battery Unit (ZEN-BAT01, sold separately) contains a lithium battery. Observe all applicable legal requirements for your area when disposing of the lithium battery. ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. In the interest of product improvement, specifications are subject to change without notice. 34 Terms and Conditions Agreement Read and understand this catalog. Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments. Warranties. (a) Exclusive Warranty. Omron's exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in writing by Omron). Omron disclaims all other warranties, express or implied. (b) Limitations. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right. (c) Buyer Remedy. Omron's sole obligation hereunder shall be, at Omron's election, to (i) replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal to the purchase price of the non-complying Product; provided that in no event shall Omron be responsible for warranty, repair, indemnity or any other claims or expenses regarding the Products unless Omron's analysis confirms that the Products were properly handled, stored, installed and maintained and not subject to contamination, abuse, misuse or inappropriate modification. Return of any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies shall not be liable for the suitability or unsuitability or the results from the use of Products in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments. Any advice, recommendations or information given orally or in writing, are not to be construed as an amendment or addition to the above warranty. See http://www.omron.com/global/ or contact your Omron representative for published information. Limitation on Liability; Etc. OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY. Further, in no event shall liability of Omron Companies exceed the individual price of the Product on which liability is asserted. Suitability of Use. Omron Companies shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Product in the Buyer's application or use of the Product. At Buyer's request, Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer's application, product or system. Buyer shall take application responsibility in all cases. NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. Programmable Products. Omron Companies shall not be responsible for the user's programming of a programmable Product, or any consequence thereof. Performance Data. Data presented in Omron Company websites, catalogs and other materials is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of Omron's test conditions, and the user must correlate it to actual application requirements. Actual performance is subject to the Omron's Warranty and Limitations of Liability. Change in Specifications. Product specifications and accessories may be changed at any time based on improvements and other reasons. It is our practice to change part numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the Product may be changed without any notice. When in doubt, special part numbers may be assigned to fix or establish key specifications for your application. Please consult with your Omron's representative at any time to confirm actual specifications of purchased Product. Errors and Omissions. Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions. 2019.3 In the interest of product improvement, specifications are subject to change without notice. OMRON Corporation Industrial Automation Company http://www.ia.omron.com/ (c)Copyright OMRON Corporation 2019 All Right Reserved.