Annuciator Logic Controllers

C B0 C C5 C C6 C C7 A B A B A B A B A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 5 Annuciator Logic Controllers 68 c5 c6 c7 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 C0 BUZZER RETURN BZ M / BZ CTROL SIGNAL LAMP DC() DC() DC V BUZZER MITOR/BZ RUNNING FLASHER ERROR ANNUCIATOR LOGIC CTROLLER A0 B0 A B A B A B A B A5 B5 A6 B6 COM COM V DC V DC WIRING DIAGRAM(68.6.00.00) 68.6.00.00 Powe Supply for LED V to V DC POWER SUPPLY EXP. MODULE CNECTOR SEQUEE PATTERN SELECTI CTROL SIGNAL INPUT LAMP TEST SW c c c c A A A A A5 FIELD CDITI SELECTI 5 6 7 8 9 0 6 NO SW SW A6 A7 A8 A9 A0 A A A A A5 A6 COM

Annunciator Logic Controller Structure... Specification... Model Number Structure Annunciator Logic Controller... Sequence Pattern & Selection Table... Terminal Arrangement and Input/Output Circuit...8

C B0 C C5 C C6 C C7 A B A B A B A B A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 5 Annunciator Logic Controllers c5 c6 c7 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 C0 BUZZER RETURN BZ M / BZ CTROL SIGNAL BUZZER MITOR/BZ RUNNING FLASHER ERROR LAMP ANNUCIATOR LOGIC CTROLLER A0 B0 A B A B A B A B A5 B5 A6 B6 COM COM WIRING DIAGRAM(68.6.00.00) 68.6.00.00 V DC Powe Supply for LED V to V DC POWER V DC SUPPLY EXP. MODULE CNECTOR DC() DC() DC V SEQUEE PATTERN SELECTI CTROL SIGNAL INPUT LAMP TEST SW c c c c A A A A A5 FIELD CDITI SELECTI 5 6 7 8 9 0 6 NO SW SW A6 A7 A8 A9 A0 A A A A A5 A6 COM WERNER'S 68 series annunciator logic controller can be used for integrated alarm and supervision in various manufacturing processes. In highly automated and robotized plants, sophisticated control technology is employed to ensure safe operation. Features Overview Highly reliable in the event of emergency Sleek & economical, saves space in panel Basic module available with 6 I/P & 6 O/P Expansion module available in 6 & 8 I/P & O/P Highlights Available with many circuits & sequence patterns Programming through preset switches in this module Options of redundancy and modbus protocols available in the module In the event of accidental control circuit breakdown, 68 series annunciator plays a great role in monitoring process condition until the system returns to normal conditions. The annunciator contains 5 main and auxiliary circuits, with 6 sequence patterns. Mainly confirms to JIS/ISA standards and incorporates many firstout operations. As all signals necessary for a system are provided, one unit suffices to construct an annunciator system. No instruction word or grammar is necessary for programming, as such operation is greatly facilitated and danger of settings change due to power failure or noise is eliminated. As the input/ circuit is isolated from control circuit, excellent noiseresistance characteristics are obtained. CPU circuits are under supervision at all times due to the original selfdiagnostic function.

C B0 C C5 C C6 C C7 A B A B A B A B A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 General: 68 Series Annunciator Logic Controller can be used for integrated alarm and supervision in various manufacturing processes. In highly automated and robotized plants, sophisticated control technology is employed to ensure safe operation. In the event of accidential control circuit breakdown, an annunciator plays a great role in monitoring process condition until the system returns to normal conditions. Features : C5 C6 B B B B B5 B6 B7 B8 BUZZER RETURN BZ M / Bz CTROL SIGNAL C7 B9 B0 B B B B B5 B6 C0. High reliability in the event of emergency & Good human interface. BUZZER MITOR/BZ LAMP DC V DC () DC (). Good form, design and low cost. RUNNING FLASHER ERROR. Many circuits and sequence patterns The annunciator contains 5 main and auxiliary circuits, and 6 sequence patterns. It mainly conforms to JIS/ISA standards and incorporates many firstout operations. As all signals necessary for a system are provided, one unit suffices to construct an annunciator system.. Programming via preset switches No instruction word or grammar is necessary for programming. Thus, operation is greatly facilitated and the danger of setting change due to power failure or noise is eliminated. SEQUEE PATTERN SELECTI CTROL SIGNAL INPUT WIRING DIAGRAM(68.6.00.00) SW LAMP TEST C C C C A A A A A0 B0 A B A B A B A B A5 B5 A6 B6 ANNUCIATOR LOGIC CTROLLER COM COM FIELD CDITI SELECTI 68.6.00.00 Powe Supply for LED V to V DC POWER V DC SUPPLY V DC SW SW EXP. MODULE CNECTOR 5 6 7 9 0 5 A5 A6 A7 A8 A9 A0 A A A A A5 A6 COM NO 5. Highly reliable design, environment and noiseresistant As the input/ circuit is isolated from the control (CPU) circuit, excellent noise resistance characteristics are obtained. The CPU circuits is under supervision at all times due to the original selfdiagnostic function. Annunciator Logic Controller Structure OPERATI INDICATORS Is interlocked with the BUZZER and lights when the buzzer sounds. Is interlocked with the MITOR or Bz and lights when power is turned on. Normal operation is indicated via this slow flasher while the board is energized. Lights in the event of control circuit malfunction. : BUZZER : M/BZ : RUNNING FLASHER : ERROR Preset switches SW selection switches Mounting piece c5 c6 c7 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 C0 BUZZER RETURN BZ M / BZ CTROL SIGNAL SEQUEE PATTERN SELECTI CTROL SIGNAL INPUT LAMP TEST BUZZER MITOR/BZ RUNNING FLASHER ERROR WIRING DIAGRAM(68.6.00.00) SW B0 C5 C C C6 C7 B C B B C A A A B B5 B6 A A5 A6 B7 B8 B9 B0 A7 A8 A9 A0 B A LAMP B B B A A A ANNUCIATOR LOGIC CTROLLER V DC FIELD CDITI SELECTI 5 6 7 8 NO 9 0 5 6 68.6.00.00 SW SW c c c c A A A A A5 A6 A7 A8 A9 A0 A A A A A5 A6 COM B5 B6 A5 A6 COM COM Powe Supply for LED V to V DC V DC POWER SUPPLY EXP. MODULE CNECTOR DC() DC() DC V Output & power supply terminal blocks Main body cover Preset switches SW & SW NO/ switches and operation mode selection switches Input terminal blocks

Specifications Item Contents Control power Lamp power Operational test i/p Lamp test input stop input Acknowledge input Reset input Monitor Rated Voltage Tolerance Allowable ripple Rated voltage Rated current Tolerance Allowable ripple Input mode Signal level Input current Delay time Input mode Signal level Input current Delay time Output mode Output capacity Output mode Output capacity VDC ±0% 0% max VDC 0 ma (approx.) 0% max. (The lower limit is subject to the lamp rating.) 8% max. Mechanical contact (NO or ) Solid state input is also acceptable. L 0 to V (DC) H Control Voltage ±V Approx. 7mA ( Input resistance approx..kω) Approx. 0 msec Mechanical contact (NO or ) Solidstate input is also acceptable. L 0 to V (DC) H Control voltage ±V Approx. 7mA (Input resistance approx.. KΩ) Approx. 0 msec Open Collector 50 ma max Open Collector 50 ma max. Circuit mode Firstout Circuit Resolution Current draw Noise resistance Common code Operating temperature Operating humidity Storage temperature Insulation resistance Dielectric strength Vibration resistance (Damage limits) Shock resistance (Damage limits) Solidstate forced interlock 0msec min. 0mA max. (When all inputs are on.),000v [µs] 0 C to 50 C 5% to 85% 5 C to 85 C 00MΩ min. (500VDC megger between live part and ground) See (6).,500VAC, minute (between live part and ground) See (6). 50m/sec (Approx. 5G) 0 to 55Hz 500m/sec (Approx. 50G) Weight Weight (Approx.).8kg

A A A A A A A5 A6 A7 B C B0 C C5 C C6 C C7 A B A B A B A B A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 A0 B0 A B A B A B A B A5 B5 A6 B6 NO 5 Model Number Structure Annunciator Logic Controller c5 c6 c7 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 C0 BUZZER RETURN BZ M / BZ CTROL SIGNAL LAMP DC() DC() DC V BUZZER MITOR/BZ RUNNING FLASHER ERROR ANNUCIATOR LOGIC CTROLLER COM COM A A8 B B A A A B B5 A5 A6 COM B6 B7 A7 A8 B8 A9 B0 B A0 B C0 A B FIELD GROUND V POWER SUPPLY NO LAMP A B A A A A A5 A6 A7 B0 A8 B B B COM B B5 B6 B7 B8 COM NO V V V DC LAMP A B5 SW A B6 A5 B7 SW A6 COM B8 B9 B0 B B B B B5 Powe Supply for LED V to V DC POWER V DC SUPPLY B6 COM COM V DC Powe Supply for LED V to V DC V DC 5 DC V POWER SUPPLY DC V V DC V DC POWER SUPPLY WIRING DIAGRAM(68.6.00.00) 68.6.00.00 Powe Supply for LED V to V DC EXP. MODULE CNECTOR SEQUEE PATTERN SELECTI CTROL SIGNAL INPUT LAMP TEST SW c c c c A A A A A5 FIELD CDITI SELECTI 5 6 8 SW SW 7 9 0 6 A6 A7 A8 A9 A0 A A A A A5 A6 COM 68. 6. 00. 0 Series CPU Redundancy 68 Series Annunciator Logic Controller 00 0 Without Redundancy With Redundancy 6 Main Board IO s input and Modbus Communication Protocol 00 0 Without Modbus With Modbus Model Number Selection Appearance Module Type Number of IO s Model No. B B B B B5 B6 B7 B8 C0 DC() DC() ANNUCIATOR LOGIC CTROLLER WIRING DIAGRAM WIRING DIAGRAM(68.00.08) 68.00.08 EXP. MODULE CNECTOR IO Expansion Module 8 Input 8 Output 68.00.08 FIELD CDITI SELECTI 5 6 7 8 SW A A A A5 A6 A7 A8 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 C0 DC() DC() WIRING DIAGRAM(68.00.6) ANNUCIATOR LOGIC CTROLLER 68.00.6 EXP. MODULE CNECTOR IO Expansion Module 6 Input 6 Output 68.00.6 FIELD CDITI SELECTI 5 6 7 8 9 0 6 A A A A5 A6 A7 A8 A9 A0 A A A A A5 A6 COM

Sequence Pattern & Selection Table S.No. Sequence Type ISA Standard Switch Positions CASE CASE CASE Automatic Reset A, Alaram input out put CASE CASE CASE Automatic Reset A Alaram input out put CASE CASE CASE Note Manual Reset M Alaram input out put CASE CASE CASE No. Input Alarm Input CASE CASE CASE 5 Automatic reset first out with no subsequent alarm state FA

Sequence Pattern & Selection Table S.No. Sequence Type ISA Standard Switch Positions CASE CASE CASE 6 FA No. 6 CASE CASE CASE 7 Automatic reset first out with first out flashing and reset pushbutton FA, CASE CASE CASE 8 Ring back R Alarm Input (alarm) Lamp (ringback) CASE CASE CASE Note 9 Manual reset first out with no subsequent alarm flashing and silence pushbutton FM CASE CASE CASE 0 No. 0 5

Sequence Pattern & Selection Table S.No. Sequence Type ISA Standard Switch Positions CASE CASE CASE No. CASE CASE CASE Note No. CASE CASE CASE No. CASE CASE CASE No. (alarm) CASE CASE CASE 5 No. 5 (alarm) (ringback) 6

Sequence Pattern & Selection Table S.No. Sequence Type ISA Standard Switch Positions CASE CASE CASE 6 No. 6 (alarm) (ringback) NOTE BUZZER STOP ISA NOWLEDGE (MANUAL) RESET Industry Standard Architecture 8.979 (R00) Wiring Diagram 7

Terminal Arrangement and Input/Output Circuit INPUT TERMINALS Terminal No. Terminal Name Operation Equivalent Circuit CTROL SIGNAL INPUT ALARM SIGNAL INPUT C B S stop input C A C K NOWLEDGE input C R S T Reset input C A A A A A5 A6 A7 A8 A9 A0 A A A A A5 A6 COM LAMP TEST V DC* Lamp test input 5 6 7 8 9 0 5 6 Control input Common Input Isolation Circuit TERMINALS Terminal No. Terminal Name Operation Equivalent Circuit CTROL SIGNAL LAMP DC V C5 BUZZER () C6 RETURN / BZ C7 B B B B B5 B6 B7 B8 B9 B0 B B B B B5 B6 COM DC () DC () M / BZ to V DC Return Alarm buzzer Monitor or buzzer () 5 6 7 8 9 0 5 6 Control Output Common Power Supply B0 Frame ground Output Isolation Circuit Note : * ' ' ve should be given at COM, then the input side (A A6,C C) will have a common ' ' ve and '' ve has to be given at s. 8

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