No products in the cart.
new
150W SERIES Single And Dual Output ( DC+8-40V OR DC+38-163V Input )
The 150W Series is a robust line of DC-DC converters featuring ultra-wide input ranges of DC 8-40V or DC 38-163V. Delivering up to 150W of regulated power, these converters support single and dual output configurations with a wide variety of voltage options from 5V to 55V, all adaptable for PCB, chassis, or DIN-rail mounting.
- This listing is for sample purchases.
- For Bulk orders, kindly click “Enquire Now” for exclusive bulk pricing.
- Bulk order pricing and logistics will be shared upon enquiry.
- GST and shipping charges applicable on checkout for sample orders.
₹6,500.00
Description
Product Details
DC Input : DC+8-40V OR DC+38-163V
| Part Number | Output Voltage |
|---|---|
| IDC100-18S05-M / IDC100-36S05-M | 5V |
| IDC150-18S12-M / IDC150-36S12-M | 12V |
| IDC150-18S15-M / IDC150-36S15-M | 15V |
| IDC150-18S19-M / IDC150-36S19-M | 19V |
| IDC150-18S24-M / IDC150-36S24-M | 24V |
| IDC150-18S36-M / IDC150-36S36-M | 36V |
| IDC150-18S48-M / IDC150-36S48-M | 48V |
| IDC150-18S55-M / IDC150-36S55-M | 55V |
Built for industrial-grade reliability, the 150W Series provides high-efficiency power regulation across two distinct input windows: a low-voltage range (8-40V) and a high-voltage range (38-163V). This dual-range capability ensures compatibility with various battery systems and industrial power buses.
The series is highly versatile, offering output power levels of 150W for standard voltages (5V to 24V) and 100W for higher voltage requirements (36V to 55V). Each unit is designed with an isolated topology to protect sensitive downstream equipment from electrical noise and surges. To suit diverse installation environments, the 150W Series supports PCB, Chassis, and DIN-rail mounting options, making it a “drop-in” solution for control panels and custom hardware alike.
Converter Type: Buck-Boost / Wide-Input Isolated
These units operate as Wide-Input Isolated Regulators. Because the input range can be both higher and lower than the set output voltage, the internal circuitry utilizes Buck-Boost technology to maintain a precise, steady voltage regardless of input fluctuations.
Technical Specifications
| Specification | Details |
|---|---|
| Input Voltage | DC+8-40V OR DC+38-163V |
| Output Voltage | 5V, 12V, 15V, 19V, 24V, 36V, 48V, 55V |
| Output Power | Up to 150W |
| Isolation | Isolated |
| Mounting Type | PCB – Chassis – DINRail Mount |
| IP Rating | IP67 |
| Application | Heavy Machinery, Railway, EV, Telecom, Renewables |
Key Applications
Heavy Industrial Machinery: Providing high-wattage power for motors, actuators, and complex control systems.
Railway & Infrastructure: The high-voltage input (up to 163V) is perfect for rail-certified applications and signal control.
Renewable Energy: Managing power conversion from variable solar or wind battery banks to fixed voltage outputs.
Electric Vehicles (EV): Stepping down primary battery voltages to power high-draw auxiliary systems like cooling fans or heavy-duty pumps.
Telecommunications: Supporting high-power base station hardware with isolated, stabilized power.
FAQs
How does a 150W DC-DC converter perform under transient voltage conditions in industrial battery systems?
Industrial-grade 150W DC-DC converters are engineered to withstand transient spikes, cranking voltage dips, inductive switching surges, and unstable DC bus conditions commonly found in EVs, railway systems, and telecom battery banks. Advanced converters use wide-input topology, UVLO circuitry, surge suppression, and transient filtering to maintain stable regulated output during dynamic load conditions.
Why is quarter-brick or eighth-brick architecture important in high-density DC-DC converters?
Quarter-brick and eighth-brick converter architectures provide standardized mechanical footprints for distributed power systems. These compact high-density packages improve thermal efficiency, reduce PCB space consumption, simplify integration into industrial backplanes, and support modular power design in telecom, avionics, and embedded automation systems.
What role does isolation voltage play in a 150W isolated DC-DC converter?
Isolation voltage protects connected systems from ground loops, electrical noise propagation, surge events, and hazardous fault conditions. High-reliability industrial converters may provide 1500VDC to 3000VDC isolation depending on application requirements such as telecom, oil & gas, railways, and renewable energy systems.
How do industrial DC-DC converters handle conducted and radiated EMI in sensitive systems?
Advanced industrial converters incorporate multi-stage EMI filtering, shielded transformer structures, optimized switching frequencies, and isolated topologies to minimize conducted and radiated electromagnetic interference. This is essential for stable operation near PLCs, RF communication systems, industrial sensors, and SCADA equipment.
What role does isolation voltage play in a 150W isolated DC-DC converter?
Isolation voltage protects connected systems from ground loops, electrical noise propagation, surge events, and hazardous fault conditions. High-reliability industrial converters may provide 1500VDC to 3000VDC isolation depending on application requirements such as telecom, oil & gas, railways, and renewable energy system.
Additional information
| DC Output Voltage | 12V, 15V, 19V, 24V, 36V, 48V, 55V, 5V |
|---|
Reviews
There are no reviews yet.