Discrete Semiconductor Products

DTD143ECT116

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NPN, SOT-23, R1=R2 POTENTIAL DIVIDER TYPE DIGITAL TRANSISTOR (BIAS RESISTOR BUILT-IN TRANSISTOR)

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Search across all available documentation for this part.

DocumentsDTD143ECT116 Datasheet (PDF)Method for Calculating Junction Temperature from Transient Thermal Resistance Data +36

Discrete Semiconductor Products

DTD143ECT116

Active

Rohm Semiconductor

NPN, SOT-23, R1=R2 POTENTIAL DIVIDER TYPE DIGITAL TRANSISTOR (BIAS RESISTOR BUILT-IN TRANSISTOR)

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DocumentsDTD143ECT116 Datasheet (PDF)Method for Calculating Junction Temperature from Transient Thermal Resistance Data +36

Specifications Series Pricing Description Documents

Technical Specifications

Parameters and characteristics for this part

Specification	DTD143ECT116

Current - Collector (Ic) (Max) [Max]	500 mA
Current - Collector Cutoff (Max) [Max]	500 nA
DC Current Gain (hFE) (Min) @ Ic, Vce [Min]	47
Frequency - Transition	200 MHz
Mounting Type	Surface Mount
Package / Case	SOT-23-3, TO-236-3, SC-59
Power - Max [Max]	200 mW
Resistor - Base (R1)	4.7 kOhms
Resistor - Emitter Base (R2)	4.7 kOhms
Supplier Device Package	SST3
Transistor Type	NPN - Pre-Biased
Vce Saturation (Max) @ Ib, Ic [Max]	300 mV
Voltage - Collector Emitter Breakdown (Max) [Max]	50 V

DTD143 Series

NPN, SOT-23, R1=R2 Potential Divider Type Digital Transistor (Bias Resistor Built-in Transistor) for automotive

Part	Frequency - Transition	Current - Collector (Ic) (Max) [Max]	Package / Case	Current - Collector Cutoff (Max) [Max]	Transistor Type	Power - Max [Max]	Supplier Device Package	Vce Saturation (Max) @ Ib, Ic [Max]	Voltage - Collector Emitter Breakdown (Max) [Max]	DC Current Gain (hFE) (Min) @ Ic, Vce [Min]	Mounting Type	Resistor - Base (R1)	Resistor - Emitter Base (R2)	Qualification	Grade
Rohm Semiconductor DTD143TKT146	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3	500 nA	NPN - Pre-Biased	200 mW	SMT3	300 mV	40 V	100	Surface Mount	4.7 kOhms
Rohm Semiconductor DTD143ECT216	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3	500 nA	NPN - Pre-Biased	200 mW	SST3	300 mV	50 V	47	Surface Mount	4.7 kOhms	4.7 kOhms
Rohm Semiconductor DTD143EKFRAT146	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3	500 nA	NPN - Pre-Biased	200 mW	SMT3	300 mV	50 V	47	Surface Mount	4.7 kOhms	4.7 kOhms	AEC-Q101	Automotive
Rohm Semiconductor DTD143ECHZGT116	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3		NPN - Pre-Biased	200 mW	SST3	300 mV		47	Surface Mount	4.7 kOhms	4.7 kOhms	AEC-Q101	Automotive
Rohm Semiconductor DTD143EKT146	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3	500 nA	NPN - Pre-Biased	200 mW	SMT3	300 mV	50 V	47	Surface Mount	4.7 kOhms	4.7 kOhms
Rohm Semiconductor DTD143ECT116	200 MHz	500 mA	SC-59 SOT-23-3 TO-236-3	500 nA	NPN - Pre-Biased	200 mW	SST3	300 mV	50 V	47	Surface Mount	4.7 kOhms	4.7 kOhms

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

Distributor	Package	Quantity	$

Digikey	Cut Tape (CT)	1	$ 0.28
		10	$ 0.17
		100	$ 0.11
		500	$ 0.08
		1000	$ 0.07
	Digi-Reel®	1	$ 0.28
		10	$ 0.17
		100	$ 0.11
		500	$ 0.08
		1000	$ 0.07
	Tape & Reel (TR)	3000	$ 0.06
		6000	$ 0.05
		9000	$ 0.05
		15000	$ 0.05
		21000	$ 0.04
		30000	$ 0.04
		75000	$ 0.04
		150000	$ 0.04
Mouser	N/A	1	$ 0.28
		10	$ 0.17
		100	$ 0.11
		500	$ 0.08
		1000	$ 0.07
		3000	$ 0.06
		6000	$ 0.05
		9000	$ 0.04
		24000	$ 0.04
Newark	Each (Supplied on Cut Tape)	1	$ 0.20
		10	$ 0.14
		25	$ 0.12
		50	$ 0.09
		100	$ 0.08
		250	$ 0.07
		500	$ 0.07
		1000	$ 0.06

Description

General part information

DTD143 Series

DTD143EC is an digital transistor (Resistor built-in type transistor). The bias resistors consist of thin-film resistors with complete isolation to allow negative.

Documents

Technical documentation and resources

DTD143ECT116 Datasheet (PDF)

Datasheet

Method for Calculating Junction Temperature from Transient Thermal Resistance Data

Thermal Design

DTD143ECT116

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DTD143ECT116

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Technical Specifications

DTD143 Series

Pricing

Description

DTD143 Series

Documents

DTD143ECT116 Datasheet (PDF)

Method for Calculating Junction Temperature from Transient Thermal Resistance Data

Types and Features of Transistors

List of Transistor Package Thermal Resistance

Impedance Characteristics of Bypass Capacitor

About Flammability of Materials

Notes for Calculating Power Consumption:Static Operation

Moisture Sensitivity Level - Transistors

Part Explanation

Compliance of the RoHS directive

How to Use LTspice&reg; Models

ESD Data

Basics of Thermal Resistance and Heat Dissipation

Temperature derating method for Safe Operating Area (SOA)

What is a Thermal Model? (Transistor)

Importance of Probe Calibration When Measuring Power: Deskew

Notes for Temperature Measurement Using Thermocouples

Method for Monitoring Switching Waveform

Certificate of not containing SVHC under REACH Regulation

Calculation of Power Dissipation in Switching Circuit

Explanation for Marking

Precautions When Measuring the Rear of the Package with a Thermocouple

Package Dimensions

PCB Layout Thermal Design Guide

Constitution Materials List

Overview of ROHM's Simulation Models(for ICs and Discrete Semiconductors)

Anti-Whisker formation - Transistors

Inner Structure

What Is Thermal Design

How to Use LTspice&reg; Models: Tips for Improving Convergence

About Export Regulations

Measurement Method and Usage of Thermal Resistance RthJC

Reliability Test Result

Condition of Soldering / Land Pattern Reference

Two-Resistor Model for Thermal Simulation

Notes for Temperature Measurement Using Forward Voltage of PN Junction

Taping Information

How to Create Symbols for PSpice Models

DTD143 Series

How to Use LTspice® Models

How to Use LTspice® Models: Tips for Improving Convergence