DS2E-S-DC24V
Part Number: DS2E-S-DC24V
Manufacturer: Panasonic Industrial Devices
Description: Low Signal Relays – PCB SUGGESTED ALTERNATE 769-TX2-24V
Shipped from: Shenzhen/HK Warehouse
Stock Available: Check with us
ICRFQ.com - Electronic Components Distributor in China Since 2003
Part Number: DS2E-S-DC24V
Manufacturer: Panasonic Industrial Devices
Description: Low Signal Relays – PCB SUGGESTED ALTERNATE 769-TX2-24V
Shipped from: Shenzhen/HK Warehouse
Stock Available: Check with us
The DS2E-S-DC24V is a relay for low signals. These highly sensitive micro relays that can be mounted on PCB boards all have the same height (9.8 mm) and width (9.9 mm), which makes installing them on PCB boards simple. They have high-performance polarised magnetic circuits that give strong resistance to shock and vibration, making them acceptable for use in challenging conditions. Additionally, they are suitable for use in harsh environments.
Typical applications include those for computers, measurement and telecommunications equipment, etc.
EU RoHS | Compliant |
ECCN (US) | EAR99 |
The Part Status | Obsolete |
HTS | 8536.41.00.20 |
Automotive | No |
PPAP | No |
Its Contact Arrangement | DPDT |
Contact Form | 2 Form C |
DC Coil Voltage (V) | 24 |
Coil Current (mA) | 8.3 |
Coil Resistance (Ohm) | 2.88K |
Its Maximum Contact Resistance (mOhm) | 50 |
Insulation Resistance (MOhm) | 100 |
Maximum Pick-Up Voltage | 16.8VDC |
Minimum Dropout Voltage | 2.4VDC |
Maximum Switching Current (A) | 3 |
Operate Time (ms) | 10 |
Release Time (ms) | 5 |
Electrical Life (Operations) | 500000 |
Mechanical Life (Operations) | 100000000 |
Relay Construction | Non-Latching |
Contact Material | Silver/Gold Clad |
It’s Maximum Switching Power | 60W|125VA |
Mounting method | Through Hole |
Termination Style | PC Pin |
Number of Terminals | 8 |
Seal | Sealed |
Minimum Operating Temperature (°C) | -40 |
Maximum Operating Temperature (°C) | 70 |
Package Type | DIP |
Product Weight (g) | 3 |
Product Length (mm) | 20 |
Product Depth (mm) | 9.9 |
Product Height (mm) | 9.9 |
Relays are electrically operated switches. It consists of input terminals and a set of functioning contact terminals for one or more control signals. The switch’s connections can have a wide variety of contact configurations, including making contacts, breaking contacts, and anything in between.
Relays are used when a single signal has to control several circuits or when a different, low-power signal needs to maintain a circuit. Relays were initially utilized in long-distance telegraph circuits to refresh the signal from one circuit by transmitting it on another. Relays performed logic operations in the earliest computers and phone systems.
There have also been produced relays with different operating principles, such as solid-state relays, which use semiconductor properties for control instead of moving elements. The classic type of relay uses an electromagnet to close or open the contacts. Relays that have calibrated operating characteristics and, in certain circumstances, many operational coils are traditionally used to manage overload and fault protection in electrical circuits. However, digital instruments are still referred to as protective relays in today’s modern electric power systems.
Latching relays only need one control power pulse to operate the switch permanently. To reset the switch, you will need to utilize a different group of control terminals, or it can be reset by sending a pulse with the wrong polarity. Repeating the same sort of pulse has no impact. In circumstances in which power failures must not affect the circuits being controlled, magnetic latching relays can be useful.
A secondary-molded coil is used in constructing a signal relay because it results in superior insulation performance between the contact and the coil. Because of its primary function, switch current, signal relays typically have a c-contact structure. These are suitable for surface mount and reflow mounting devices, respectively. Because of their gold-plated contacts and bifurcated crossbar constructions, our signal relays are utilized for load switching that is usually less than 2A. These relays ensure contact dependability even when dealing with a tiny signal load. Signal relays are frequent in industrial devices such as machine tools, molding machines, welding machines, mounters, gaming machines, security devices, and testing and measurement devices.
All electrical appliances eventually require switching; after all, we can’t leave them on all the Time. These electrical devices can range in power output from low-power ones like lightbulbs to high-power ones like motors, elevators, and other vehicle electronics. Relays have some restrictions, much like every other electronic component, though. Each model and variant has the highest power ratings that are permitted. For instance, we will run into issues. The energy consumed, which comes to 500W and exceeds the relay’s power rating by multiples of the actual value, may be computed as the product of the applied voltage and the current drawn by the relay. This could harm the relay irreparably.
Arcing is a significant issue affecting relays’ functioning when used with high voltages. The current movement across the air gap exists between the relay’s contacts while they are open, from one contact to the other. Arcing increases internal heat production and shortens a relay’s operational lifetime by eroding the connections over Time.
Power relays satisfy high current and voltage requirements while staying below the power and temperature criteria. The fundamental operations of a power relay and those of a standard relay are virtually indistinguishable. Because of their higher current and voltage ratings, we can switch high-power loads thanks to the fact that they have the same components and switching procedures as those mentioned earlier. When switching, power relays are designed to generate less heat and less arcing than regular relays do. This is accomplished through their specialized engineering. Compared to those on a regular relay, the switch contacts on a power relay differ.
We hope that this post was able to provide you with some knowledge that will help you out. If you have any queries, please do not be reluctant to leave them in the comment sections below, and we will do our best to respond to them as quickly as possible. Feel free to look around at your convenience on our website to get any extra information you may require; a lot of content can be used there.
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