Country Flags IBS Electronics USA IBS Electronics Mexico IBS Electronics Philippines IBS Electronics China IBS Electronics Malaysia IBS Electronics India IBS Electronics Hong Kong IBS Electronics Singapore
Home > Discrete Semiconductors > Diodes & Rectifiers > Transistors > NSC MMBT3640 TRANSISTOR PNP SW 12V SOT-23

NSC MMBT3640 TRANSISTOR PNP SW 12V SOT-23

Be the first to review this product

Availability: Request a Quote

$0.0000

Quick Overview

National Semi - Nsc Mmbt3640 Diode Bipolar Transistor; Transistor Polarity:Dual P Channel; Power Dissipation, Pd:0.225W; DC Current Gain Min (hfe):20; C-E Breakdown Voltage:12V; Collector Current:0.2A; DC Current Gain Max (hfe):120; Leaded Process Compatible:No RoHS Compliant: No

NSC MMBT3640 	TRANSISTOR PNP SW 12V SOT-23

Double click on above image to view full picture

Zoom Out
Zoom In

More Views

Details

NATIONAL SEMI - NSC MMBT3640 Bipolar Transistors - BJT Switching Transistor PNP SW 12V SOT-23 PNP Switching Transistor This device is designed for very high speed saturate switching at collector currents to 100 mA. Sourced from Process 65. See PN4258 for characteristics.
Specifications
Product Category: Bipolar Transistors - BJT
Mounting Style: SMD/SMT
Package / Case: SOT-23-3
Transistor Polarity: PNP
Configuration: Single
Collector- Emitter Voltage VCEO Max: 12 V
Collector- Base Voltage VCBO: 12 V
Emitter- Base Voltage VEBO: 4 V
Collector-Emitter Saturation Voltage: 0.6 V
Maximum DC Collector Current: 0.2 A
Pd - Power Dissipation: 225 mW
Gain Bandwidth Product fT: 500 MHz
Minimum Operating Temperature: - 55 C
Maximum Operating Temperature: + 150 C
Series: MMBT3640
Packaging: Cut Tape
Packaging: Reel
DC Current Gain hFE Max: 120
Technology: Si
Continuous Collector Current: 0.2 A
DC Collector/Base Gain hfe Min: 30
Product Type: BJTs - Bipolar Transistors
Factory Pack Quantity: 3000
Subcategory: Transistors
Lifecycle: Obsolete

Additional Information

MMBT3640-NSC
© 1994 - 2022 IBS Electronics Inc. All rights Reserved.    •    Call Now: 1-800-717-6475     Go to Top  Go to Top of Page