| Image | Part Number | Manufacturer | Description | Series | Packaging | Mounting Type | RoHS Status | Manufacturer Part Number | Package / Case | Polarization | Base Part Number | Supplier Device Package |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
DMC566030R | Panasonic | TRANS PREBIAS DUAL NPN SMINI6 | - | Tape & Reel (TR) | Surface Mount | - | - | 6-SMD, Flat Leads | - | DMC56603 | SMini6-F3-B |
|
RN2963FE(TE85L,F) | Toshiba Semiconductor and Storage | TRANS 2PNP PREBIAS 0.1W ES6 | - | Cut Tape (CT) | Surface Mount | - | - | SOT-563, SOT-666 | - | - | ES6 |
|
EMG11T2R | LAPIS Semiconductor | TRANS 2NPN PREBIAS 0.15W EMT5 | - | Cut Tape (CT) | Surface Mount | - | - | 6-SMD (5 Leads), Flat Lead | - | *MG11 | EMT5 |
|
|
NSBC124XPDXV6T5G | AMI Semiconductor / ON Semiconductor | TRANS PREBIAS NPN/PNP SOT563 | - | Tape & Reel (TR) | Surface Mount | - | - | SOT-563, SOT-666 | - | NSBC1* | SOT-563 |
|
NSB13211DW6T1G | AMI Semiconductor / ON Semiconductor | TRANS NPN/PNP PREBIAS 0.23W SC88 | - | Tape & Reel (TR) | Surface Mount | - | - | 6-TSSOP, SC-88, SOT-363 | - | - | SC-88/SC70-6/SOT-363 |
|
UP0431400L | Panasonic | TRANS PREBIAS NPN/PNP SSMINI6 | - | Cut Tape (CT) | Surface Mount | - | - | SOT-563, SOT-666 | - | - | SSMINI6-F1 |
|
|
MUN5212DW1T1G | AMI Semiconductor / ON Semiconductor | TRANS 2NPN PREBIAS 0.25W SOT363 | - | Tape & Reel (TR) | Surface Mount | - | - | 6-TSSOP, SC-88, SOT-363 | - | MUN52**DW1T | SC-88/SC70-6/SOT-363 |
|
PUMB9,125 | Nexperia | TRANS 2PNP PREBIAS 0.3W 6TSSOP | - | Tape & Reel (TR) | Surface Mount | - | - | 6-TSSOP, SC-88, SOT-363 | - | - | 6-TSSOP |
|
|
DMG5640N0R | Panasonic | TRANS PREBIAS NPN/PNP SMINI6 | - | Tape & Reel (TR) | Surface Mount | - | - | 6-SMD, Flat Leads | - | DMG5640N | SMini6-F3-B |
|
DDA143TK-7-F | Diodes Incorporated | TRANS PREBIAS DUAL PNP SOT26 | - | Tape & Reel (TR) | Surface Mount | - | - | SOT-23-6 | - | DDA143 | SOT-26 |
Bipolar Junction Transistor (BJT) arrays, pre-biased, offer a convenient and space-efficient solution in electronic circuit design. These arrays integrate multiple individual BJT transistors on a single chip, accompanied by pre-configured biasing circuits. The pre-biased feature simplifies the design process, as the transistors come ready for use with stable operating conditions. This is particularly advantageous in applications where precise and consistent biasing is crucial, such as in amplifier stages and signal processing circuits. The integration of multiple transistors in an array provides flexibility for complex circuit configurations, saving space on the printed circuit board (PCB) and streamlining the assembly process. Engineers can leverage these pre-biased BJT arrays for applications demanding reliable and repeatable transistor characteristics. Common uses include audio amplifiers, mixers, and other analog circuits where maintaining consistent operating points is essential for optimal performance.