Forklift Anti Collision Radar Detection Sensor System Input Voltage: 10-30 Volt (V)
Price: 95000 INR (Approx.)
MOQ - 1 Number
HESHAM INDUSTRIAL SOLUTIONS
Response Rate: 86.73%
Business Type: Manufacturer | Distributor
Radar Base River Monitoring System Application: Industrial
Price: 90000 INR (Approx.)
MOQ - 10 Unit/Units
QUICK ENGINEERING SOLUTIONS PRIVATE LIMITED
Business Type: Manufacturer
Table Mounted High Efficiency Electrical Electromagnetic Interference Tester
Price: 500 USD ($) (Approx.)
MOQ - 50 Number
LISUN ELECTRONICS (SHANGHAI) CO., LTD
Business Type: Manufacturer | Exporter
The Wipe Hotwire India Thermal Equipments (P) Ltd.
Business Type: Manufacturer | Supplier
Truck'S Special Astern Radar System Accuracy: 0.1M Mm/M
Price: 200.00 - 255.00 USD ($) (Approx.)
MOQ - 100 Set/Sets
Chengdu Sinh Technology Co., Ltd.
Business Type: Manufacturer | Supplier
Radar System: History, Types & Applications
Radar systems are a crucial piece of technology that are undergoing fast development. Innovative sensor technologies are providing benefits in a wide variety of domains. Radio Detection and Ranging, or RADAR, is a technique of active transmission and receiving that operates in the microwave GHz range. Its acronym stands for "Radio Detection and Ranging." The use of radar sensors allows for the non-contact detection, tracking, and location of one or more objects via the use of electromagnetic waves. It has the capability of identifying things such as aeroplanes, ships, satellites, ballistic bombs, motorized vehicles, topography, and weather patterns. During the years leading up to and throughout World War II, a number of nations worked in the shadows to develop radar for use in their militaries. The invention of the cavity magnetron in the Great Britain was a significant step forward since it made it possible to create reasonably compact devices with a resolution of sub-meters. The United States Navy came up with the name RADAR in 1940 to serve as an abbreviation for the phrase "radio detection and ranging." Since then, the word radar has become a common noun in English and other languages, and the capitalization of the word has been dropped. Other kinds of technologies that are analogous to radar tap into other areas of the EM spectrum. One such technology is known as lidar, and it primarily makes use of infrared light generated by lasers instead of radio waves. With the advent of driverless cars, radar is anticipated to be able to aid the automated platform in monitoring its surroundings, hence reducing the likelihood of unfavourable events occurring.
Types of Radar Systems
A basic radar system employs various components. The first component is a transmitter. It may be a power amplifier like a Traveling Wave Tube, or it may be a power Oscillator like a Magnetron. The signal is first produced with the assistance of a waveform generator, and then it is amplified with the assistance of a power amplifier. Transmission lines are what we refer to as waveguides, and they are used for the transmission of RADAR signals. The next component is the antennae, which may be either a parabolic reflector or either electronically guided phased arrays or flat arrays. A duplexer is a device that enables the antenna to function in either the transmitting or receiving role. It's possible that it's a gaseous device, in which case it would cause a tripping at the entry to the receiver whenever the transmitter was operational. Receiver is another important component. It might be a super heterodyne receiver, or it could be any other receiver that comprises of a processor to detect and analyse the signal. The last component is called a threshold decision maker. The result of the receiver is matched with a cutoff in order to determine whether or not any item is present. When the output falls below any certain threshold, it is presumed that there is noise present.
There are several varieties of radars available, some of which are described here.
This sort of radar system consists of a Tx-transmitter and a Rx-receiver that are separated by a range that is comparable to the estimated distance of the target. A radar in which both the transmitter and the receiver are positioned in the same location is referred to as a monastery radar. On the other hand, the bistatic radar is used in extremely long-range guided missiles and air to air military weaponry.
It is a specialised kind of radar that makes use of the Doppler Effect in order to calculate the velocity of data pertaining to a target that is located at a certain distance. This can be accomplished by sending electromagnetic signals in the region of an item, then analysing how the action of the object has impacted the frequency of the returning signal. This can be done by delivering electromagnetic signals in the vicinity of an object. Because of this alteration, the radial component of an object's velocity in respect to the radar will be measured with a level of precision that was before unavailable. Numerous fields, including meteorology, aviation, healthcare, and others, are among those that benefit from the uses of these radars.
The primary function of this form of radar is to detect and track targets by deciphering signals derived from the lighting of their surroundings. These sources include transmissions from commercial companies as well as signals used for communication. This radar may be placed in the same group as other types of bistatic radars when it comes to categorisation.
These radars were developed specifically for use in the testing of various types of aircraft, missiles, and rockets. In the examination of post-processing as well as in real-time, they provide a variety of information, some of which includes space, location, and time.
Through the use of radio waves with either circular or horizontal polarisation, they are utilised to determine both the wind direction and the weather. The selection of the frequency used by weather radar is mostly determined by a trade-off between performance and attenuation, with precipitation reflection serving as the ultimate result of atmospheric water condensate.
The primary purpose of these radars is to investigate a sizable geographic region for the purposes of remote sensing and geography applications. Because of synthetic aperture radar, they can only be used against objects that are relatively immobile. There are specific radar systems that are used to identify persons after walls, and these radar systems are significantly different from the ones that are located inside building materials.
In most respects, they are the same as search radars; nevertheless, they are available with short wavelengths that are able to replicate from the ground and from stones. Both commercial ships and long-distance flights often make use of them in their electrical systems. There are several varieties of navigational radars, such as marine radars, which are often installed aboard ships with the dual goal of preventing collisions and facilitating navigation.
Pulsed RADAR works by sending pulses with a high strength and frequency towards the item being monitored. After that, it pauses to await the echo signal that is sent by the object before sending another pulse. The pulse repetition frequency has a role in determining the RADAR's range as well as its resolution. It employs a technique known as the Doppler shift approach.
Radar System in Cars
In the automobile industry, Frequency Modulated Continuous Wave (FMCW) radar is employed in a variety of frequency bands, based on the specific requirements of the various applications. The fundamental configuration of the radar consists of one or more radar MMIC communication systems that are linked to an increased central processor (MCU or SoC). The position of the radar unit on the vehicle as well as the application that it needs to cover will determine both the topology and the number of chips that are used.
The International Telecommunications Union (ITU) classifies vehicle radar systems into one of two types, denoted by the respective functions they perform:
Radar systems that provide the driver comfort features and make for easier, less stressful driving fall under Category 1, which also covers those systems. This category includes adaptive cruise control (ACC) and collision avoidance radar (CA radar), both of which have measuring ranges of up to 250 metres. Category 2 is responsible for defining sensors that are used in high-resolution functions that contribute to the active and passive security of a car.
Top Rated Product
Radar System Price List
|Product Name||Expected Price|
|Smart Coah Radar||50000|
This Data was Last Updated on 2023-12-08
Radar System Manufacturers | Suppliers in India
|Company Name||Location||Member Since|
|Hi-tech Projects||Bengaluru, India||18 Years|
|Nk Instruments Pvt. Ltd.||Thane, India||15 Years|
|Ibic Engineering Private Limited||Mumbai, India||9 Years|
|Hesham Industrial Solutions||Vadodara, India||5 Years|
|Fab Marine Spares||Bhavnagar, India||2 Years|
|Quick Engineering Solutions Private Limited||Aligarh, India||1 Years|
|Vidyut Yantra Udyog||Modinagar, India||1 Years|