(!)NOTE : Windows 7 users won’t be able to use some latest features of eCatalog/WOS since Microsoft is ending support for Windows 7 on 14 Jan, 2020. Please upgrade your system for uninterrupted services.
Tel: 0124-4688 800Email: cs@misumi.co.in9:00am - 5:30pm (Monday to Saturday)
Timers / Calendar Timers(Time specifications:0.05s to 300h)
A timer / calendar timer is a device that turns on or off industrial equipment, control panels, etc. or performs specific operations at a preset time. It is used for applications such as operation control of equipment and management of workpieces in industrial lines, etc. There are two types of timers: analog timers with excellent visibility by dial operation and digital timers with precise time control by key operation. The calendar timer is a timer that mainly sets the day and time with one week as one cycle. In addition to the same day of the week and the same time, on-off control of daytime at midnight and different times of the day is also possible. In addition, there are products such as solar time switches that perform on / off control using the annual sunset and sunrise times stored in the internal memory, solid-state timers that can control multiple time ranges with one unit, etc.
[Features] · A series based on twin timer, star delta timer. · UL, CSA, LR, NK, CCC acquired, EN61812-1 compatible safe design. · Compatible with the CE mark. · Because the time units enable separate ON time and OFF time setting, combinations of long term ON or OFF and short time ON or OFF are possible. · Product line-up with the two types of operational mode of start flicker ON and start flicker OFF. · Power sources for any low voltage (AC24 to 48/DC12 to 48V), any high voltage (AC100 to 240V/DC100 to 125V). · 24 types of time ranges can be selected from among 0.05 seconds to 300 hours. · Instantaneous output of 0 setting is possible. · Because there is instantaneous output by revolving the scale in the direction of 0, the checking of the sequence operation and the like is simple. · UL, CSA, NK, LR, CCR acquired, EN61812-1 compatible. · Corresponds to the CE mark.
Volume Discount
Type
Display method
Mounting Method
Time specifications(s)
Power Supply Voltage
Output Method
Representative Standard
Dimension vertical(mm)
Dimension width(mm)
Dimension depth(mm)
-
Analog
Other
0.05s to 300h
AC/DC
Relay
-
48
48
52.3
From:
₹ 7,472.00
Days to Ship:
Same day or more
Same day or more
You can add up to 6 items per a category to the compare list.
[Features] · Multiple time ranges and operational modes. · DIN48 × 48 mm full multiple timer. · Two types of AC / DC free power supply, drastically reducing the number of models in stock. · Can deal with a variety of applications with eight operational modes (11 pin type) or five operational modes (8 pin type). · An economical design with reduced power consumption. · 0 Setting instantaneous output which facilitates sequence check. · Socket (type P3G-08) attached, 75 mm neck-down short barrel type (Type H3CR-A8EAC100 to 240V/DC100 to 125V). · PNP input types are also available in the lineup. · UL, CSA, NK, LR, CCC acquired, EN61812-1 compatible, corresponds to the CE mark.
Volume Discount
Type
Display method
Mounting Method
Time specifications(s)
Power Supply Voltage
Output Method
Representative Standard
Dimension vertical(mm)
Dimension width(mm)
Dimension depth(mm)
-
Analog
-
0.05s to 300h
AC/DC
Relay / Transistor
CE / UL / CCC / CSA
48
48
52.3
From:
₹ 2,088.00
Days to Ship:
Same day or more
Same day or more
Brand
Product Series
From
Days to Ship
Type
Display method
Mounting Method
Time specifications(s)
Power Supply Voltage
Output Method
Representative Standard
Dimension vertical(mm)
Dimension width(mm)
Dimension depth(mm)
You can add up to 6 items per a category to the compare list.
You can add up to 6 items per a category to the compare list.
Question: How do I select the best timer or calendar timer for managing industrial equipment and ensuring precise operation control?
Answer: To choose the timer or calendar timer, for effectively managing industrial equipment and ensuring precise control of operations there are several factors you should take into consideration
1. Type of timer: There are two types of timers.
1.1. Electromechanical timers, which offer accuracy but greater durability.
1.2. Electronic timers, known for their accuracy but being more susceptible to factors.
2. Timing Range: It is essential to select a timer that offers a timing range aligned with your requirements. Some timers provide timing options in seconds while others extend to days or even years.
3. Accuracy: The level of accuracy offered by the timer plays a role in guaranteeing control of operations. Choose a timer that meets your desired level of accuracy.
4. Environmental conditions: Consider the conditions within which the timer will be utilized. Certain timers are designed exclusively for use while others can withstand outdoor elements.
5. Special Features: Some timers come with features like multiple channels, programmable sequences, and alarms among others.
Question: What are the key differences between analog and digital timers in terms of accuracy, visibility, and ease of operation in industrial applications?
Answer: The key differences between analog and digital timers in terms of accuracy, visibility, and ease of operation in industrial applications are as follows:
Accuracy
Analog timers are less accurate than digital timers because analog timers rely on mechanical components, which can be affected by factors such as temperature, humidity, and vibration.On the other hand digital timers use electronic components, which are more resistant to these factors.
Visibility
Digital timers are easier to read than analog timers. This is because digital timers display the time in a clear and concise format. Analog timers, on the other hand, use dials and hands, which can be difficult to read, especially in low-light conditions.
Ease of operation
Digital timers are easier to operate than analog timers. This is because digital timers have buttons or dials that can be used to set the time and other parameters. Analog timers, on the other hand, may require users to manually turn knobs or set levers, which can be more time-consuming and difficult.
In general, digital timers are the better choice for industrial applications where accuracy and visibility are important. However, analog timers may be a good choice for applications where cost or durability is a primary concern.
Question: How does a calendar timer work in controlling industrial operations throughout the week, and can it manage different on/off times throughout the day?
Answer: Calendar timers work by sending signals to machine or industrial equipment at specific times on specific days of the week. They can manage different on/off times throughout the day by being programmed accordingly. For example:
Turn on a machine at 9:00 AM on weekdays and turn it off at 6:00 PM on weekdays.
Turn on a machine at 10:00 AM on Saturdays and turn it off at 2:00 PM on Saturdays.
Turn on a light fixture at sunset and turn it off at sunrise.
Calendar timers are a versatile tool that can be used to automate and control a wide variety of industrial operations. They can help to improve efficiency, reduce costs, and extend the lifespan of equipment.
Question: How do solar time switches utilize annual sunset and sunrise times to control equipment, and can they adjust to varying daylight conditions throughout the year?
Answer: Solar time switches can adjust to varying daylight conditions throughout the year by using an algorithm that takes into account the date and time of year. This algorithm ensures that the equipment is turned on and off at the correct times, regardless of the length of the day. For example, a solar time switch could be programmed to turn on a streetlight at sunset and turn it off at sunrise.
Question: How can implementing timers enhance energy efficiency and optimize operational productivity in an industrial setting?
Answer: Timers can enhance energy efficiency and optimize operational productivity in an industrial setting by:
1. Reducing energy waste: Timers can be used to turn off equipment when it is not in use, such as during off-hours or when there is no product being processed. This can help to reduce energy consumption and save money on energy bills.
2. Improving operational efficiency: Timers can be used to ensure that work is performed within a specified period of time. Can be used to monitor and improve work processes.
3. Extending equipment lifespan: Timers can be used to prevent equipment from being overworked, which can help to extend its lifespan. For example, a timer can be used to turn off a motor after a certain amount of time, preventing it from overheating.
How can we improve?
How can we improve?
Thank you for your time.
Your feedback is essential for our continuous improvement
Privacy Policy
Thank you for your cooperation.
Thank you for your time.
Your feedback is essential for our continuous improvement
Please use the inquiry form.
Privacy Policy