Floating cable which can be applied to underwater robot equipment, either in fresh water environment or in seawater environment. It is widely used in marine exploration robot, underwater ROV UAV remote control submersible, underwater camera, underwater construction, underwater search and rescue robot, pipeline detection robot, submersible pump and the link between various underwater electrical equipment and shore based equipment; Link of signal transmission, power supply and equipment control system from underwater to water.
FRP cable trays at INDO are manufactured from Glass Armored Thermoset fireretardant
resins Available in different range applied for ideal locations where metallic systems get
easily corroded
INDO FRP Cable Tray system meet stringent Fire Retardant requirements It provides
advantages like Anti Corrosion High Strength No Earthing UV Resistant Good
Electrical Insulator Low thermal conductivity etc
Liquid Cooled Charging Cables are electric vehicle charging cables that utilize liquid cooling to achieve high-speed charging. These cables feature a 500A current rating and a 1000V voltage rating for charging speeds up to 500KW.
Application
Use for control and connecting cable on data transmission within building management system, speaker audio system and control measurement. Suitable for use in dry and damp environment.
Cable Structure & Features
Conductor Material : Tinned copper stranded
Insulation : Semi-Rigid PVC
Drain Wire : Tinned copper stranded
Shielding : Aluminium foil laminated screen
Outer Sheath ; PVC
Sheath Colour : black or gray
Technical Data
Standard : UL Style 2464
Approvals : UL apporoved
Rated Voltage : 300V
Testing Voltage : 1500V
Flame Retardant : VW-1
Insulation Resistance : Min 20Mx km
Min. Bending Radius : 10 x cable diameter
Operating Temp. : -30C / +80C
Manufactured using High grade Raw materials, Industrial Grade Strength, Highly Durable, Easy to Install, Available for light duty, medium and heavy duty applications. Wide range of perforated cable tray accessories to choose from. Excellent on site integration & safety.
ECG cables also referred to as an ECG patient cable, is a type of cable connection designed for non-invasive heart monitoring, typically used to help diagnose potential heart issues. The ECG cable connects to electrodes which are positioned at specific locations on the patient�¢??s body to detect and record heart muscle electrical activity. The cables then transmit the electrical activity back to the ECG device for analysis and diagnosis by medical professionals.
ECG Cable Feature
[Multiple Leads]: ECG cables usually have several leads placed in specific areas on the patient�¢??s body, such as the chest, arms, and legs, to measure the heart�¢??s electrical activity from different angles.
[Durability]: ECG cables are constructed from top-quality, sturdy materials that can endure repeated bending, tugging, and
twisting without sustaining any damage. This ensures that the cables can withstand the rigors of frequent use and remain reliable over time.
[Shielding]: ECG cables are shielded to block out external electrical signals, which can interfere with the accuracy of the
readings.
[Connector Compatibility]: The ECG cables are available with various connector types, including snap, clip, and banana, to fit different types of ECG machines.
[Safety]: ECG cables are designed to meet strict safety standards and regulations to ensure patient safety. This helps to ensure that patients are protected from any potential harm during the monitoring process.
[Cleaning and Disinfecting]: The ECG cables are easy to clean and disinfect to maintain hygienic conditions, as they come into contact with the patient�¢??s skin.
ECG Cable Advantages
[Excellent Performance]: ECG cables are built to withstand the rigors of twisting and bending, and have been thoroughly tested to ensure optimal performance. The cables are also equipped with electrical shielding to protect the signal integrity, ensuring accurate readings.
[Non-Invasive]: ECG cables are non-invasive, which means that they do not require any incisions or invasive procedures. This reduces the risk of infection and makes the monitoring process much safer for patients. Instead, the cables are simply attached to the patient's skin, making it a quick and painless process.
SpO2 cables are specifically designed to connect the SpO2 sensor, typically placed on a patient's finger or earlobe, to the monitoring device. These cables transmit the optical signals captured by the sensor to the monitor, where the data is processed and displayed as oxygen saturation levels.
