RN2901AFS~RN2906AFS
2010-05-14
1
TOSHIBA Transistor Silicon PNP Epitaxial Type (PCT process) (Transistor with Built-in Bias Resistor)
RN2901AFS, RN2902AFS, RN2903AFS
RN2904AFS, RN2905AFS, RN2906AFS
Switching, Inverter Circuit, Interface Circuit and
Driver Circuit Applications
• Two devices are incorporated into a fine-pitch, small-mold (6-pin)
package.
• Incorporating a bias resistor into a transistor reduces the parts count.
Reducing the parts count enables the manufacture of ever more
compact equipment and saves assembly cost.
• Complementary to the RN1901AFS to RN1906AFS
Equivalent Circuit and Bias Resistor Values
Absolute Maximum Ratings (Ta = 25°C)
(Q1, Q2 common)
Characteristic Symbol Rating Unit
Collector-base voltage VCBO −50 V
Collector-emitter voltage
RN2901AFS to 2906AFS
VCEO −50 V
RN2901AFS to 2904AFS −10
Emitter-base voltage
RN2905AFS, 2906AFS
VEBO
−5
V
Collector current IC −80 mA
Collector power dissipation PC (Note 1) 50 mW
Junction temperature Tj 150 °C
Storage temperature range
RN2901AFS to 2906AFS
Tstg −55 to 150 °C
Note: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the
significant change in temperature, etc.) may cause this product to decrease in the reliability significantly
even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute
maximum ratings.
Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook
(“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test
report and estimated failure rate, etc).
Note 1: Total rating
Unit: mm
JEDEC ―
JEITA ―
TOSHIBA 2-1F1D
Weight: 1 mg (typ.)
R1
R2
B
C
E
Type No. R1 (kΩ) R2 (kΩ)
RN2901AFS 4.7 4.7
RN2902AFS 10 10
RN2903AFS 22 22
RN2904AFS 47 47
RN2905AFS 2.2 47
RN2906AFS 4.7 47
Equivalent Circuit
(top view)
6 5 4
1 2 3
Q1 Q2
fS6
1.EMITTER1
2.BASE1
3.COLLECTOR2
4.EMITTER2
5.BASE2
6.COLLECTOR1
(E1)
(B1)
(C2)
(E2)
(B2)
(C1)
0.15±0.05
0.1±0.05
6
0.8±0.05
1.0±0.05
0.7±0.05
1
2
0.1±0.05
0.350.35
3
1.0±0.05
0.1±0.05
5
4
0.48
+0.02
-0.04
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RN2901AFS~RN2906AFS
2010-05-14
2
Electrical Characteristics (Ta = 25°C) (Q1, Q2 common)
Characteristic Symbol Test Condition Min Typ. Max Unit
ICBO V
CB = −50 V, IE = 0 ⎯ ⎯ −100
Collector cutoff current RN2901AFS to 2906AFS
ICEO V
CE = −50 V, IB = 0 ⎯ ⎯ −500
nA
RN2901AFS −0.89 ⎯ −1.33
RN2902AFS −0.41 ⎯ −0.63
RN2903AFS −0.18 ⎯ −0.29
RN2904AFS
VEB = −10 V, IC = 0
−0.088 ⎯ −0.133
RN2905AFS −0.085 ⎯ −0.127
Emitter cutoff current
RN2906AFS
IEBO
VEB = −5 V, IC = 0
−0.08 ⎯ −0.121
mA
RN2901AFS 30 ⎯ ⎯
RN2902AFS 50 ⎯ ⎯
RN2903AFS 70 ⎯ ⎯
RN2904AFS 80 ⎯ ⎯
RN2905AFS 80 ⎯ ⎯
DC current gain
RN2906AFS
hFE VCE = −5 V,
I
C = −10 mA
50 ⎯ ⎯
RN2901AFS IC = −5 mA,
IB = −0.5 mA
Collector-emitter
saturation voltage
RN2902AFS to 2906AFS
VCE (sat)
IC = −5 mA,
IB = −0.25 mA
⎯ ⎯ −0.15 V
RN2901AFS −1.2 ⎯ −2.2
RN2902AFS −1.2 ⎯ −2.6
RN2903AFS −1.3 ⎯ −3.5
RN2904AFS −1.5 ⎯ −5.0
RN2905AFS −0.6 ⎯ −1.1
Input voltage (ON)
RN2906AFS
VI (ON) VCE = −0.2 V,
IC = −5 mA
−0.7 ⎯ −1.3
V
RN2901AFS to 2904AFS −0.8 ⎯ −1.5
Input voltage (OFF)
RN2905AFS, 2906AFS
VI (OFF) VCE = −5 V,
I
C = −0.1 mA −0.5 ⎯ −0.8
V
Collector output
capacitance RN2901AFS to 2906AFS Cob VCB = −10 V, IE = 0,
f = 1 MHz ⎯ 0.9 ⎯ pF
RN2901AFS 3.76 4.7 5.64
RN2902AFS 8 10 12
RN2903AFS 17.6 22 26.4
RN2904AFS 37.6 47 56.4
RN2905AFS 1.76 2.2 2.64
Input resistor
RN2906AFS
R1 ⎯
3.76 4.7 5.64
kΩ
RN2901AFS to 2904AFS 0.8 1.0 1.2
RN2905AFS 0.0376 0.0468 0.0562
Resistor ratio
RN2906AFS
R1/R2 ⎯
0.08 0.1 0.12
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RN2901AFS~RN2906AFS
2010-05-14
3
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
IC - VI (ON)
-0.1
-1
-10
-100
-0.1 -1 -10 -100
INPUT VOLTAGE VI (ON) (V)
COLLECTOR CURRENT IC (mA)
COMMON EMITTER
VCE = -0.2 V
25
-25
RN2901AFS RN2902AFS
RN2904AFS
RN2903AFS
RN2905AFS RN2906AFS
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
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RN2901AFS~RN2906AFS
2010-05-14
4
IC - VI (OFF)
-10
-100
-1000
-10000
-0.2 -0.6 -1 -1.4 -1.8 -2.2
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE = -5 V
25 -25
IC - VI (OFF)
-10
-100
-1000
-10000
-0.2 -0.6 -1 -1.4 -1.8 -2.2
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE= -5 V
25 -25
IC - VI (OFF)
-10
-100
-1000
-10000
-0.2 -0.6 -1 -1.4 -1.8 -2.2
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE = -5 V
25 -25
IC - VI (OFF)
-10
-100
-1000
-10000
-0 -0.5 -1 -1.5 -2 -2.5 -3
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE = -5 V
25
-25
IC - VI (OFF)
-10
-100
-1000
-10000
-0.2 -0.4 -0.6 -0.8 -1 -1.2
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE = -5 V
25 -25
IC- VI (OFF)
-10
-100
-1000
-10000
-0.2 -0.4 -0.6 -0.8 -1 -1.2
INPUT VOLTAGE VI (OFF) (V)
COLLECTOR CURRENT IC (uA)
COMMON EMITTER
VCE = -5 V
25 -25
RN2901AFS RN2902AFS
RN2904AFSRN2903AFS
RN2905AFS RN2906AFS
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
(μA)
(μA)
(μA)
(μA)
(μA)
(μA)
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RN2901AFS~RN2906AFS
2010-05-14
5
hFE - IC
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
hFE- IC
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
hFE - IC
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
hFE - IC
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
hFE - IC
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
RN2902AFS
RN2904AFSRN2903AFS
RN2905AFS RN2906AFS
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
Ta = 100°C
hFE- IC
1
10
100
1000
-1 -10 -100
COLLECTOR CURRENT IC (mA)
DC CURRENT GAIN hFE
COMMON EMITTER
VCE = -5 V
25
-25
RN2901AFS
Ta = 100°C
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RN2901AFS~RN2906AFS
2010-05-14
6
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 10
25
-25
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 20
25
-25
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 20
25-25
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 20
25
-25
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 20
25-25
VCE (sat) - IC
-0.01
-0.1
-1
-1 -10 -100
COLLECTOR CURRENT IC (mA)
COLLECTOR-EMITTER SATURATION
VOLTAGE VCE (sat) ( V)
COMMON EMITTER
IC / IB = 20
25
-25
RN2902AFS
RN2904AFSRN2903AFS
RN2905AFS RN2906AFS
Ta = 100°C
Ta = 100°C Ta = 100°C
Ta = 100°C
Ta = 100°C
RN2901AFS
Ta = 100°C
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RN2901AFS~RN2906AFS
2010-05-14
7
Marking
Type Name Marking
RN2901AFS
RN2902AFS
RN2903AFS
RN2904AFS
RN2905AFS
RN2906AFS
Type Name
D0
1 2 3
45 6
Type Name
D1
1 2 3
45 6
Type Name
D2
1 2 3
45 6
Type Name
D3
1 2 3
45 6
Type Name
D4
1 2 3
45 6
Type Name
D5
1 2 3
45 6
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RN2901AFS~RN2906AFS
2010-05-14
8
RESTRICTIONS ON PRODUCT USE
• Toshiba Corporation, and its subsidiaries and affiliates (collectively “TOSHIBA”), reserve the right to make changes to the information
in this document, and related hardware, software and systems (collectively “Product”) without notice.
• This document and any information herein may not be reproduced without prior written permission from TOSHIBA. Even with
TOSHIBA’s written permission, reproduction is permissible only if reproduction is without alteration/omission.
• Though TOSHIBA works continually to improve Product’s quality and reliability, Product can malfunction or fail. Customers are
responsible for complying with safety standards and for providing adequate designs and safeguards for their hardware, software and
systems which minimize risk and avoid situations in which a malfunction or failure of Product could cause loss of human life, bodily
injury or damage to property, including data loss or corruption. Before customers use the Product, create designs including the
Product, or incorporate the Product into their own applications, customers must also refer to and comply with (a) the latest versions of
all relevant TOSHIBA information, including without limitation, this document, the specifications, the data sheets and application notes
for Product and the precautions and conditions set forth in the “TOSHIBA Semiconductor Reliability Handbook” and (b) the
instructions for the application with which the Product will be used with or for. Customers are solely responsible for all aspects of their
own product design or applications, including but not limited to (a) determining the appropriateness of the use of this Product in such
design or applications; (b) evaluating and determining the applicability of any information contained in this document, or in charts,
diagrams, programs, algorithms, sample application circuits, or any other referenced documents; and (c) validating all operating
parameters for such designs and applications. TOSHIBA ASSUMES NO LIABILITY FOR CUSTOMERS’ PRODUCT DESIGN OR
APPLICATIONS.
• Product is intended for use in general electronics applications (e.g., computers, personal equipment, office equipment, measuring
equipment, industrial robots and home electronics appliances) or for specific applications as expressly stated in this document.
Product is neither intended nor warranted for use in equipment or systems that require extraordinarily high levels of quality and/or
reliability and/or a malfunction or failure of which may cause loss of human life, bodily injury, serious property damage or serious
public impact (“Unintended Use”). Unintended Use includes, without limitation, equipment used in nuclear facilities, equipment used
in the aerospace industry, medical equipment, equipment used for automobiles, trains, ships and other transportation, traffic signaling
equipment, equipment used to control combustions or explosions, safety devices, elevators and escalators, devices related to electric
power, and equipment used in finance-related fields. Do not use Product for Unintended Use unless specifically permitted in this
document.
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noncompliance with applicable laws and regulations.
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