MNR14ERAPJ752 Resistors

Number of Pins:	8
Height - Seated (Max):	0.024" (0.60mm)
Size / Dimension:	0.126" L x 0.063" W (3.20mm x 1.60mm)
Supplier Device Package:	--
Package / Case:	1206 (3216 Metric), Convex, Long Side Terminals
Mounting Type:	Surface Mount
Applications:	--
Operating Temperature:	-55°C ~ 155°C
Temperature Coefficient:	±200ppm/°C
Power Per Element:	62.5mW
Series:	MNR
Resistor-Ratio-Drift:	--
Resistor Matching Ratio:	--
Number of Resistors:	4
Tolerance:	±5%
Resistance (Ohms):	7.5k
Circuit Type:	Isolated
Part Status:	Discontinued at Digi-Key
Packaging:	Tape & Reel (TR)

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Resistor Networks, Arrays, and MNR14ERAPJ752Resistor networks, or arrays, are a type of passive electronic component used in many different types of applications and to solve various engineering problems. They are comprised of multiple resistors connected in configurations that allow for either voltage or current division across them, or even both. Generally referred to in the electronics world as a kind of network, or also sometimes referred to as R-Nets, resistor networks are an extremely versatile solution for many design challenges.The MNR14E-RAPJ-752 is a leadless surface mount resistor network. Manufactured by Panasonic, it is a high-performance, cost-effective resistor network, offering excellent reliability and durability. This device consists of fourteen resistors, and a total of 768Ω. With a wide range of operating temperatures, it is suitable for both consumer electronics and automotive applications. It is also resistant to moisture and heat, and is RoHS compliant.The MNR14E-RAPJ-752 operates mainly through the process of impedance, or the electrical opposition of a circuit element to alternating current. This resistance can be used to both attenuate and isolate signals, thus allowing the network to perform many useful functions. In voltage division, the network is divided into parts so that each resistor is a proportion of the total resistance. The current in each resistor portion is the same, but the components of the network each with their own specific resistance will divide the voltage of the total resistance differently. In current division, the network is divided into parts so that each resistor receives a proportion of the current. The voltage in each resistor portion is the same, but since each component of the network has a different specific resistance, the currents of the total resistance will divide accordingly.MNR14E-RAPJ-752 offers a wide range of usage, offering flexibility and efficient solutions to various engineering challenges. It is well-suited to such diverse applications as high-performance voltage dividers, current-sensing networks, switching, isolation and EMI protection, buffering, and any other application wherein precise voltage or current division is required. It is also ideal for use in a variety of harsh environment applications such as in automotive, industrial and other applications that may be exposed to harsh elements.MNR14E-RAPJ-752’s leadless construction makes it an ideal choice for automated surface-mount assembly, due to its long-term reliability and repeatability. It is designed to not only minimize the stress on resistors, but on the entire assembly as well. Additionally, the component is designed with an ingrained pressure seal that prevents head-on pressure, preventing any shifting of resistors, and the degradation of performance.In summary, MNR14E-RAPJ-752 is an excellent choice for many applications. Its efficient performance through impedance, leadless construction, and durability make it an excellent choice for a variety of challenging design problems. Through voltage or current division, it offers efficient solutions for many diverse applications, and is an excellent choice for high-performance, as well as harsh environment applications.

The specific data is subject to PDF, and the above content is for reference

Part Number	Manufacturer	Price	Quantity	Description