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ROHM’s New Thick Film Shunt Resistors: Featuring Industry-Leading 4W Rated Power

2021-11-30 | 返回
Supporting higher power in consumer and industrial applications

ROHM has developed thick-film shunt resistors, LTR100L, optimized for industrial and consumer applications. Often used to detect current in battery protection and motor drive circuits, shunt resistors require higher accuracy to improve reliability and ensure high efficiency operation.

Recent years have seen an emphasis on energy savings in the industrial and consumer fields, with efforts being made to reduce power consumption during drive operation by using motor inverters. At the same time, protection circuits are becoming more important in these fields as applications continue to increase in power.

ROHM has been working on expanding its considerable lineup, most recently with the GMR320 series of metal plate shunt resistors – released in February 2021. The devices feature a higher guaranteed rated power of up to 10W. Since April 2018, ROHM has been producing the LTR50 series of low ohmic thick film shunt resistors rated at 2W. With these latest products, ROHM has expanded its lineup of thick-film shunt resistors to support an even higher power area.



The LTR100L series achieves the industry’s highest rated power of 4W in the 3264 size (3.2mm × 6.4mm) / 1225 size (0.12inch × 0.25inch) by revising resistor materials and applying terminal temperature derating. This makes them ideal for current detection in motor control and overcurrent protection circuits for industrial and consumer applications, which are progressing towards higher power. In addition, optimization of the element structure delivers best-in-class TCR (temperature coefficient of resistance) characteristics among thick-film shunt resistors. As a result, they are not easily affected by temperature – enabling high accuracy, high reliability current detection.

Samples can be purchased from one piece from online distributors Digi-Key, Mouser, and Farnell (starting with 10mΩ, 47mΩ, and 91mΩ). Furthermore, a variety of content and tools useful for design, such as application notes, are available on ROHM’s website. Simulation Models will also be released.

Going forward, ROHM will continue to expand its resistor (a founding product) lineup from low to high power. The core aims: achieving greater energy savings and reliability, while contributing to the evolution of industrial and consumer equipment by leveraging its strengths as a comprehensive semiconductor manufacturer – to provide solution proposals utilizing ICs and discrete products.

Key Features
1. Achieves the industry’s highest 4W rated power for thick-film shunt resistors in the 3264 size (1225 size in inches)

ROHM's new products adopt a high heat dissipation wide terminal package. In addition, optimizing resistor materials and applying terminal temperature derating allows ROHM to achieve thick film shunt resistors with the industry’s highest rated power of 4W in the 3264 size (3.2mm × 6.4mm) / 1225 size (0.12inch × 0.25inch). This is about twice that of conventional products in the same size – making them ideal for current detection in motor control and overcurrent protection circuits for industrial and consumer applications where higher power is required.



2. Superior temperature coefficient of resistance contributes to greater application reliability
The LTR100L series achieves excellent TCR characteristics of less than 300ppm/℃ (at 10mΩ resistance value products) within the operating temperature range through an optimized element structure. This reduces the change in resistance value due to temperature changes compared with standard products by 50% to 65%, – enabling high accuracy current detection that improves application reliability.



Tools that significantly reduce design load
In November 2021, ROHM launched a web-based simulation environment that enables thermal simulation of shunt resistors in combination with power devices and ICs on its website (starting with the PSR series). These simulations allow thermal design – an issue during application design – to be simulated in advance, reducing design load. ROHM also offers current detection solutions utilizing ICs along with discrete components that contribute to greater circuit efficiency and miniaturization. As an example, for motor drive circuits that require current detection for overcurrent protection and control, adopting ROHM’s class-leading low noise operational amplifiers together with shunt resistors results in high accuracy current detection.



Thick-Film Shunt Resistors: LTR Series Lineup
The LTR100L series utilizes a thick-film structure that makes it relatively easy to expand the resistance value range.

Part No.

Size Code mm [inch]

Rated Power (70ºC) [W]

Resistance Tolerance

Temp. Coefficient of Resistance [ppm/ºC]

Resistance Range [Ω]

Operating Temp. [Cº]

Automotive Grade
(AEC-Q200)

LTR10

1220
[0508]

0.5

J (±5%)
F (±1%)

±150

47m to 9.1 (E24 series)

-55 to +155

Available

LTR18

1632
[0612]

1

0 to 300

10m to 18m (E24 series)

Available

0 to 200

20m to 47m (E24 series)

0 to 150

51m to 470m (E24 series)

±100

510m to 1 (E24 series)

LTR50

2550
[1020]

2

0 to 300

10m to 18m (E24 series)

Available

0 to 200

20m to 47m (E24 series)

0 to 150

51m to 91m (E24 series)

±100

100m to 910m (E24 series)

LTR100L

3264
[1225]

4*

0 to 300

10m to 18m (E24 series)

-65 to +155

Available

0 to 200

20m to 47m (E24 series)

0 to 150

51m to 91m (E24 series)

LTR100

2
3

J:±200

100m to 910m (E24 series)

-55 to +155

Available

F:0 to 150

100m to 200m (E24 series)

F:0 to 100

200m to 910m (E24 series)

*Terminal temperature (Tk)=110ºC guaranteed
☆:Under Development

LTR100L Application Examples
The versatile design enables use in variety of applications, including consumer and industrial equipment.

> Industrial equipment (factory automation, motor peripheral circuits, power supplies)
> Consumer appliances (air conditioners, washers, refrigerators, vacuum cleaners)
> Other (2-wheel vehicle headlamps, EV scooters (e-bikes), etc.)

ROHM’s online simulator ‘ROHM Solution Simulator’
Simply click on the URL below to access the dedicated website and register as a user to begin using the ROHM Solution Simulator. Supporting documentation required for use is also available.
ROHM Solutions Simulator Page: https://www.rohm.com/solution-simulator

Terminology
TCR (Temperature Coefficient of Resistance)
The lower this value, the less resistance change with a change in ambient temperature. Low TCR makes it possible to suppress variations during device operation.

Source: http://www.rohm.com/