| Parameter | Symbol | Rating | Unit | | :--- | :--- | :--- | :--- | | Collector-Base Voltage | $V_CBO$ | 50 | V | | Collector-Emitter Voltage | $V_CEO$ | 40 | V | | Emitter-Base Voltage | $V_EBO$ | 5 | V | | Collector Current | $I_C$ | 1.0 | A | | Power Dissipation | $P_C$ | 0.8 | W | | DC Current Gain | $h_FE$ | 40 - 240 | | | Transition Frequency | $f_T$ | 150 | MHz |
: Utilized as a small-signal oscillator or signal booster in legacy communication devices.
What does this transistor encounter in your circuit? Share public link c1124 transistor datasheet better
Here's a summary of the key specifications found in the C1124 transistor datasheet:
When comparing datasheets, ensure that you're comparing similar characteristics and specifications. Pay attention to the differences in: | Parameter | Symbol | Rating | Unit
Original C1124 Pinout (TO-202 / TO-220 Front View): +-----------+ | [ HEAT ] | | [ SINK ] | +-----------+ | C1124 | +-----------+ | | | | | | B C E (Base, Collector, Emitter) 1. Ksc2690a (The Optimal Performance Match)
An excellent choice for audio driver circuits, though its transition frequency is slightly lower than the 2. The High-Performance Upgrade: 2SC3502 / 2SC3503 Pay attention to the differences in: Original C1124
The quest for a "c1124 transistor datasheet better" usually leads to a dead end because the part is simply old. The better solution is not to find a cleaner scan of a bad datasheet—it is to find a modern, fully-documented replacement transistor.
: Set your digital multimeter to diode mode. Placing the positive probe on the Base terminal (Pin 1) and the negative probe on either the Collector (Pin 2) or Emitter (Pin 3) should register a reliable forward voltage drop between 0.6V and 0.7V . Reversing the probes must show an open loop ( OL ). If you are currently replacing this component, tell me:
A rugged, widely available TO-126 option. While its transition frequency ( fTf sub cap T