ample-chip ample-chip
RFQ
BOM

Arrays/Networks Resistors

Image Part Number Description / PDF Quantity Rfq
4814P-T02-331LF

4814P-T02-331LF

J.W. Miller / Bourns

RES ARRAY 13 RES 330 OHM 14SOIC

0
4816P-1-302LF

4816P-1-302LF

J.W. Miller / Bourns

RES ARRAY 8 RES 3K OHM 16SOIC

0
4816P-1-473LF

4816P-1-473LF

J.W. Miller / Bourns

RES ARRAY 8 RES 47K OHM 16SOIC

1287
4116R-1-361

4116R-1-361

J.W. Miller / Bourns

RES ARRAY 8 RES 360 OHM 16DIP

0
4114R-2-181LF

4114R-2-181LF

J.W. Miller / Bourns

RES ARRAY 13 RES 180 OHM 14DIP

0
4814P-T01-561

4814P-T01-561

J.W. Miller / Bourns

RES ARRAY 7 RES 560 OHM 14SOIC

0
4310M-101-512

4310M-101-512

J.W. Miller / Bourns

RES ARRAY 9 RES 5.1K OHM 10SIP

0
4308R-101-471

4308R-101-471

J.W. Miller / Bourns

RES ARRAY 7 RES 470 OHM 8SIP

0
4308R-101-161

4308R-101-161

J.W. Miller / Bourns

RES ARRAY 7 RES 160 OHM 8SIP

0
4604X-101-272LF

4604X-101-272LF

J.W. Miller / Bourns

RES ARRAY 3 RES 2.7K OHM 4SIP

0
4814P-1-683

4814P-1-683

J.W. Miller / Bourns

RES ARRAY 7 RES 68K OHM 14SOIC

0
4416P-T02-221

4416P-T02-221

J.W. Miller / Bourns

RES ARRAY 15 RES 220 OHM 16SOIC

0
4608X-101-202LF

4608X-101-202LF

J.W. Miller / Bourns

RES ARRAY 7 RES 2K OHM 8SIP

456
4818P-2-104

4818P-2-104

J.W. Miller / Bourns

RES ARRAY 17 RES 100K OHM 18SOIC

0
4818P-T02-151LF

4818P-T02-151LF

J.W. Miller / Bourns

RES ARRAY 17 RES 150 OHM 18SOIC

0
4416P-T02-203

4416P-T02-203

J.W. Miller / Bourns

RES ARRAY 15 RES 20K OHM 16SOIC

0
4814P-T01-103

4814P-T01-103

J.W. Miller / Bourns

RES ARRAY 7 RES 10K OHM 14SOIC

0
4308R-101-105LF

4308R-101-105LF

J.W. Miller / Bourns

RES ARRAY 7 RES 1M OHM 8SIP

0
4309R-101-121

4309R-101-121

J.W. Miller / Bourns

RES ARRAY 8 RES 120 OHM 9SIP

0
4610X-102-564LF

4610X-102-564LF

J.W. Miller / Bourns

RES ARRAY 5 RES 560K OHM 10SIP

0

Arrays/Networks Resistors

1. Overview

Resistor arrays/networks are integrated circuits containing multiple resistors in a single package. They provide precise resistance values and spatial efficiency in electronic systems. These components play a critical role in modern electronics by enabling voltage division, signal conditioning, and termination networks while reducing PCB footprint and assembly complexity.

2. Main Types and Functional Classification

TypeFunctional CharacteristicsApplication Examples
Bussed Resistor ArraysCommon terminal connection for multiple resistorsDigital logic pull-up/pull-down networks
Isolated Resistor NetworksElectrically separated resistor elementsAnalog signal conditioning circuits
Voltage Divider ArraysPrecisely matched resistor ratiosSensor signal scaling in measurement systems
Termination NetworksHigh-precision impedance matchingHigh-speed data bus termination
Integrated EMI FiltersCombined resistive and capacitive elementsNoise suppression in communication interfaces

3. Structure and Composition

Typical construction features:

  • Ceramic substrate (Al O or AlN) for thermal stability
  • Thin-film or thick-film resistive elements (NiCr, TaN)
  • Termination pads with Ag/Pd or Sn/Pb metallization
  • Molded epoxy encapsulation (for discrete packages)
  • Standard packages: SIP, DIP, SOIC, TSSOP

4. Key Technical Parameters

ParameterSignificance
Resistance Range0.1 to 10M (determines application suitability)
Power Rating50mW to 1W per element (thermal management factor)
Tolerance 0.1% to 5% (precision level indicator)
TCR 25ppm/ C to 100ppm/ C (temperature stability)
Insulation Resistance100M min (isolation performance)
Voltage Rating50V to 200V (safety and breakdown protection)

5. Application Fields

  • Consumer Electronics: Smartphones (LCD biasing), IoT devices
  • Automotive: ECU sensor interfaces, LED lighting control
  • Industrial: PLC signal conditioning, precision instrumentation
  • Telecommunications: Transmission line termination, RF circuits
  • Aerospace: Avionics redundancy systems, navigation equipment

6. Leading Manufacturers and Products

ManufacturerKey Products
Vishay Precision GroupCRCW-HP series (high-precision thin-film)
Panasonic Electronic DevicesEX-H series (automotive-grade networks)
TT ElectronicsWSL series (low-TCR power arrays)
ROHM SemiconductorMNR series (miniaturized resistor networks)
Yageo CorporationRCN series (high-voltage termination arrays)

7. Selection Guidelines

  1. Calculate required resistance values and tolerances
  2. Determine power dissipation requirements per element
  3. Assess temperature coefficient needs based on operating environment
  4. Select package type compatible with PCB layout and assembly process
  5. Consider EMI filtering requirements for high-frequency applications
  6. Evaluate automotive/aerospace certification needs

Industry Trends Analysis

Current development directions include:

  • Miniaturization: 01005-inch footprint arrays for mobile devices
  • Increased integration: Embedded passives in SiP modules
  • Extended reliability: AEC-Q100 qualified parts for EV systems
  • High-precision manufacturing: Laser-trimmed thin-film technology
  • Environmental compliance: Halogen-free and RoHS-compliant packages
RFQ BOM Call Skype Email
Top