1. Timers - PAGE 1/20 - Timer Products

2. Timers - PAGE 2/20 - Multitechnology PROCESSING ACTUATING SENSING COMMUNICATING PROCESSING SOLUTIONS

3. Timers - PAGE 3/20 - Multitechnology PROCESSING ACTUATING SENSING COMMUNICATING ACTUATING SOLUTIONS

4. Timers - PAGE 4/20 - Processing Timers Cam timers

5. Timers - PAGE 5/20 - Timers Basic technical concepts Products The competition

6. Timers - PAGE 6/20 - Basic technical concepts Operating principle A timer is an automation control component which is designed to energise an output contact during a precise timing cycle. It is also known as a “time delay relay”, “specified-time digital relay” or even an “electronic timer”. The timing cycle starts when either power is applied to the timer or with an initiate switch. The timer model determines whether an initiate switch is required. The delay on make time function in a Chronos 2 will begin as soon as the power is applied. With the 88 857 series (TOP 948), an initiate switch is required. Initiate switches can also be either a maintained or impulse (momentary) type contact. Because of these options, there are a large number of potential timing functions and products.

7. Timers - PAGE 7/20 - Basic technical concepts Operating principle There are 4 types of timers are available: “DIN-rail mounted” products designed to be mounted to a standard 35 mm DIN-rail inside a wall-mounted or floor-standing enclosure. “Panel mounted” products designed to be mounted on the front of a control panel for easy access by the user. “Plug-in” products designed to be used with an industry standard 8 or 11 pin socket. The socket can mount on a DIN-rail or surface in an enclosure. “Surface mounted” products designed to be mounted to a surface inside a enclosure.

8. Timers - PAGE 8/20 - Basic technical concepts Operating principle Timing functions require a time reference to ensure the accuracy of products. This time reference is known as the “time base” The time base is obtained using one of two technologies: - Electromechanical: The time base is obtained from a synchronous micromotor whose speed depends solely on the frequency of the main supply on which it is connected. This motor, associated with a gearbox, controls contacts, usually microswitches. - Electronic: Several techniques are used: analogue or digital (counting) to obtain the time base. The output component is usually an electromechanical relay. Solid-state outputs are also possible.

9. Timers - PAGE 9/20 - Basic technical concepts Example of a timing function Timing functions on Crouzet products are designated by a letter of the alphabet. EXAMPLE: FUNCTION “A” Delay on energisation. Time delay 1010 1010 Command Output

10. Timers - PAGE 10/20 - Basic technical concepts Example timing function EXAMPLE: FUNCTION “C” Delay on break (delay off). 1010 Initiate - C, Y1 1010 Power - U Time setting 1010 Output - R1, R2

11. Timers - PAGE 11/20 - Catalogue products Chronos 2 electronic timers Electronic with relay output 8 or 11 Pin plug-in or 22.5 mm or 17.5 mm DIN-rail

12. Timers - PAGE 12/20 - Catalogue products Compact, low cost timers Electronic with solid state output

13. Timers - PAGE 13/20 - Catalogue products Panel mounted timers Digital electronics

14. Timers - PAGE 14/20 - Catalogue products Panel mounted timers Analog electronic

15. Timers - PAGE 15/20 - Catalogue products Electromechanical timers Panel mount or DIN rail

16. Timers - PAGE 16/20 - Catalogue products Delay on make timers NAR2, relay output, 2-1/4” snap track RTM, 4 relay outputs, PCB or DIN rail mount

17. Timers - PAGE 17/20 - Competition: Timers INTERNATIONAL COMPETITORS 1 OMRON 2 C GAVAZZI 1 SSAC 2 OMRON 3 IDEC COMPETITORS (UNITED STATES)

18. Timers - PAGE 18/20 - The main markets Other activity sectors Electrical equipment panel-builders Home automation Health Machines Vending/cash machines Office automation Defence/Aerospace Household electrical goods Automotive and onboard

19. Timers - PAGE 19/20 - Applications General Timer controls can be used in addition to a programmable controller (or PLC) or in places where a programmable controller is not necessary. The requirement can be as small as one input and one output. Two outputs are also available on some products. Combinations can also be used for more complex functions.

20. Timers - PAGE 20/20 - Applications Type of Business - Printing Presses - Automatic Carwash - Machine Shop Equipment Manufacturers - Chemical or Petrochemical Plant Equipment - Swimming Pool Circulation and Filtering System - Manufacturing Plants with Automatic or Semi- automatic Equipment. - Injection Molding Equipment - Sawmill or Wood Cutting Equipment - Fabrication and Machine Shops that Specialize in Automation Equipment - Engineering Firms that Design Automation Equipment - Equipment Manufacturer’s for Electronic and Semiconductor Equipment - Furnace and Oven Manufacturers

21. Timers - PAGE 21/20 - Applications Specific Functions - Alarm light or horn before automated equipment starts. - Delay on Break timer to set length of horn. - Repeat cycle (equal on/off) for flashing light. - Alarm for operation that does not occur within a specific time limit. - Automatic Greaser for bearing system - Cooling fluid control for cutting tool. - Conveyor operation - Automatic door opening system. - Timing control for injection molding machine - Control for electrically operated valves.

22. Timers - PAGE 22/20 - Cam timers Basic technical concepts Products The competition

23. Timers - PAGE 23/20 - Basic technical concepts Operating principle A CAM TIMER is an automation control component designed to actuate a series of contacts in a predetermined order during a cycle, according to a cyclical program. The cycle can be: single-shot, repetitive, or step-by-step. Often underrated, cam timers can be used to simplify automation systems considerably and eliminate the need for many components.

24. Timers - PAGE 24/20 - Basic technical concepts Operating principle Cam timers consist of: - A drive device: synchronous geared motor - Data carriers: standard, adjustable (programmable), or precut striker cams - Output switching components: microswitch (electrical) or microvalve (pneumatic) Standard Programmable Custom

25. Timers - PAGE 25/20 - Adapted products There are numerous possibilities when creating cam timers. - Switching possible with 1 to 40 circuits - Possibility of complex cycles with 2 motors - Assembly of microswitches and microvalves - Etc

26. Timers - PAGE 26/20 - Competition: Cam timers COMPETITORS 1 SAIA 2 FIBER 3 CDC

27. Timers - PAGE 27/20 - The main markets Other activity sectors Electrical equipment panel-builders Home automation Health Machines Vending/cash machines Office automation Defence/Aerospace Household electrical goods Automotive and onboard

28. Timers - PAGE 28/20 - Timer Products The CROUZET offer END THANK YOU FOR WATCHING