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DEVICES for AUTOMOTIVE

CAUTION / WARNING

Bulletin No C01EA0 (Jun., 1999)
DEVICES for AUTOMOTIVE
CAUTION / WARNING
Product Groups
q Regulator q High-side power switch q Low-side power switch q Stepper-motor driver IC q Hall-Effect IC q Custom IC q Transistor q MOS FET q Rectifier Diode for alternator q High-voltage diode for igniter q Power Zener diode q General-purpose diode q LED (visible & infrared)
Applications
Power Train Control q Engine · Fuel injection · Ignition control · Air ratio control · Emission purification control · Idling control · Knocking and EGR control · Variable valve timing control
q Transmission · Fully electronic control · CVT control q Alternator
Carbody Control and Safety q 4WD q 4WS q ABS q Power steering q Auto cruising q Traction control q Stability control q Airbag q HID Head Lamp
Compartment Equipment q Automatic air conditioner q Power window q Keyless entry q Panel, Multi-media · Meter display · Car audio · Navigation · VICS
Contents
· Application Note for Regulators .................. 5 · Dropper Type Regulator ........................ 6 · Dropper Type Dual Output Regulator .............. 14 · Switching Type Regulator ....................... 18 · High-side Power Switch ......................... 20 · Surface-mount High-side Power Switch Array ....... 30 · High-side Power Switch Array ................... 32 · Surface-mount Low-side Switch Array ............. 38 · Stepper-motor driver ........................... 42 · Hall-Effect IC ................................. 44 · Custom IC ................................... 46 · Transistors and MOS FETs by Application .......... 48 · Transistors and MOS FETs by Load ............... 49 · Power Transistor .............................. 50 · Power Transistor Array ......................... 62 · Surface-mount Power Transistor Array ............. 68 · MOS FET ..................................... 71 · MOS FET Array ................................ 79 · Surface-mount MOS FET Array ................... 83 · Rectifier Diode for Alternator ..................... 86 · High-voltage Diode for Igniter .................... 87 · Power Zener Diode ............................ 88 · General-purpose Diode ......................... 89 · General-purpose Diode, External Dimensions ....... 93 · General-purpose Diode, Taping Specifications ...... 95 · General-purpose LED .......................... 98 · General-purpose LED, External Dimensions ....... 104 · Index by Type No. ............................ 108
Application Note for Regulators
s Temperature and Reliability
Reliability of an IC is generally heavily dependent on operating temperature. Heat radiation must be fully considered, and an ample margin should be given to the radiating area in designing heatsinks. When mounting ICs on heatsinks, always apply silicone grease and firmly tighten. Air convection should actively be used in actual heat dissipation. The reliability of capacitors and coils, the peripheral components, is also closely related to temperature. A high operating temperature may reduce the service life. Exceeding the allowable temperature may cause coils to be burned or capacitors to be damaged. Make sure that output smoothing coils and input / output capacitors do not exceed their allowable temperature limit in operation. We recommend, in particular, to provide an ample margin for the ratings of coils to minimize heat generation. generally used. Moreover, the heat dissipation capacity of a heatsink is heavily dependent on how it is mounted. It is therefore important and recommended to measure the heatsink and case temperature in actual operating environments. The Ta-PD characteristics are provided for each product type for reference purposes.
s Setting DC Input Voltage
Observe the following precautions when setting the DC input voltage: · VIN (min) must be at least the set output voltage plus dropout voltage for the dropper type. It must be at least the recommended lowest input voltage for the switching type. · VIN (max) must not exceed the DC input voltage of the electrical characteristics.
s Power Dissipation (PD)
1. Dropper Type
s Screw Torque
Screw torque should be between 0.588 to 0.686 N · m (6.0 to 7.0 kgf · cm).
2. Switching Type
Refer to the efficiency characteristics.
s Recommended silicone grease
Volatile type silicone grease may produce cracks after elapse of long term, resulting in reducing heat radiation effect. Silicone grease with low consistency (hard grease) may cause cracks in the mold resin when screwing the product to a heatsink.
Type Suppliers Shin-Etsu Chemical Co., Ltd. Toshiba Silicone Co., Ltd. Dow Corning Toray Silicone Co., Ltd.
VO : Output voltage VIN : Input voltage IO : Output current
: Efficiency VF : Diode forward voltage
s Heatsink Design
G746 YG6260 SC102
s Others
This product may not be connected in parallel. The switching type may not be used for current boosting and stepping up voltage.
Dropper Type Regulator with Output On / Off Control SI-3001S
Parameter DC Input Voltage Output Control Terminal Voltage Output Current Power Dissipation PD2 Junction Temperature Operating Temperature Storage Temperature Junction to Case Thermal Resistance Junction to Ambient-Air Thermal Resistance Tj TOP Tstg
External Dimensions (unit: mm)
Ratings 35 VIN
Symbol VIN VC IO PD1
Conditions
18 1.5 - 40 to +125 - 40 to +100 - 40 to +125 5.5
With infinite heatsink Stand-alone without heatsink
1. GND 2. VC (on / off) 3. Vo 4. Vosense 5. VIN
a: Type No. b: Lot No.
(Forming No. 1101)
Stand-alone without heatsink
Equivalent Circuit Diagram
R1 MIC Tr1
3 VO 4 VO sense
Electrical Characteristics
Parameter Input Voltage Output Voltage Dropout Voltage Line Regulation Load Regulation Output Voltage Temperature Coefficient Ripple Rejection Quiescent Circuit Current Overcurrent Protection Starting Current Vc Terminal
Output ON
Ratings
Symbol VIN VO VDIF
min 6 2 4.90
Conditions
Vc (on / off)
VO LINE VO LOAD VO / T RREJ Iq I S1 VC, IH VC, IL I C, IH I C, IL
1 a : Pre-regulator GND b : Output ON / OFF control c : Thermal protection d : Over-input and overcurrent protection
e : Drive circuit f : Error amplifier g : Reference voltage
Standard Circuit Diagram
Control Voltage
Output OFF Output ON
SI-3001S
DC input +
Control Current
Output OFF
DC output
Co : Output capacitor (47 to 100µF, 50V) C1, C2 : Anti-oscillation capacitors (C1: approx. 47µF, C2: approx. 0.33µF). These are required for inductive input lines or long wiring. Tantalum capacitors are recommended for C1 and Co, especially at low temperatures. Protection diode. Required as protection against reverse D1 : biasing between input and output. (Recommended diode: Sanken EU2Z.)
s Io vs VDIF Characteristicsc
s Line Regulation
s Load Regulation
Dropout voltage VDIF (V) Output voltage VO (V)
Output voltage VO (V)
Output current IO (A)
Input voltage VIN (V)
s Output Voltage Temperature Characteristics
s Rise Characteristics
s Circuit Current
Load resistance Ground current lg (mA)
Output voltage VO (V)
16(V) 5.0
Output voltage VO (V)
12(V)
14(V) 5.5(V)
VIN - IOUT condition 5.5 (V) / 1.0 (A) 12 (V) / 0.4 (A) 14 (V) / 0.4 (A) 16 (V) / 0.4 (A) 30 (V) / 0 (A)
Input voltage VIN (V)
s ON / OFF Control Characteristics
Output voltage VO (V)
s Overcurrent Protection Characteristics
s Thermal Protection Characteristics
Output voltage VO (V) Output voltage VO (V)
Output ON / OFF control voltage VC (V)
30 (V)
5.5 (V) 20 (V) 14 (V)
Output current IO (A)
s Overvoltage Protection Characteristics
s Ta -PD Characteristics
With infinite heatsink Use G746 silicone grease (Shin-Etsu Chemical) and aluminum heatsink.
Note on Thermal Protection Characteristics: The thermal protection circuit is intended for protection against heat during instantaneous short-circuiting. Its operation, including reliability, is not guaranteed for short-circuiting over an extended period of time.
Power Dissipation PD (W)
Output voltage VO (V)
Without heatsink
Input voltage VIN (V)
3-terminal Dropper Type Regulator SI-3003S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Parameter DC input voltage Output current Power Dissipation PD2 Junction temperature Operating temperature Storage temperature Junction to case thermal resistance Junction to ambient-air thermal resistance Tj TOP Tstg
j-c j-a
Ratings 35 0.8 22 1.8 -40 to +150 -40 to +100 -40 to +150 5.5 66.7
Symbol VIN IO PD1
Unit V
Conditions
(root dimensions)
Terminal connections 1. VIN a: Type No. 2. (NC) b: Lot No. 3. GND 4. (NC) 5. VO (Forming No. 1115)
Electrical Characteristics
Parameter Input voltage Output voltage Dropout voltage Line regulation Load regulation Ripple rejection Quiescent circuit current Overcurrent protection starting current Symbol VIN VO VDIF min 62 4.90
Equivalent Circuit Diagram
VIN 1 OCP TSD DRIVE DET ERR REF 5
VO LINE VO LOAD RREJ Iq IS1 0.9
Standard Circuit Diagram
DC input + 1
SI-3003S
DC output
Output capacitor (47 to 100µF, 50V)
1 C1, C2 : Anti-oscillation capacitors (C1: approx. 47µF, C2: approx. 0.33µF). These are required for inductive input lines or long wiring. Tantalum capacitors are recommended for C1 and Co, especially at low temperatures. 2 D1 : Protection diode. Required as protection against reverse biasing between input and output. (Recommended diode: Sanken EU2Z.)
s Io vs VDIF Characteristics
s Line Regulation
s Load Regulation
Dropout voltage VDIF (V) Output voltage VO (V)
Output voltage VO (V)
Output current IO (A)
Input voltage VIN (V)
Output current IO (A)
s Output Voltage Temperature Characteristics
s Rise Characteristics
s Circuit Current
Ground current lg (mA)
Output voltage VO (V)
VIN / IO: 30V / 0A 14V / 0.5A 6V / 0.8A
Input voltage VIN (V)
s Overcurrent Protection Characteristics
Output current IO (A)
s Thermal Protection Characteristics
s Ta -PD Characteristics
With infinite heatsink With silicone grease Heatsink: aluminum
Power Dissipation PD (W)
Without heatsink
Output voltage VO (V)
Note on Thermal Protection Characteristics: The thermal protection circuit is intended for protection against heat during instantaneous short-circuiting. Its operation, including reliability, is not guaranteed for short-circuiting over an extended period of time.
Dropper Type Regulator with Reset Function SI-3011S
Features
External Dimensions (unit: mm)
Parameter DC input voltage Output current Power Dissipation
Symbol VIN IO PD1 PD2
Ratings 35 0.7 1 22 1.8 -40 to +150 -40 to +105 -40 to +150 5.5 66.7
Conditions
(2.0) (4.6) 0.45 P1.7
Stand-alone without heatsink
Junction temperature Operating temperature Storage temperature Junction to case thermal resistance Junction to ambient-air thermal resistance
Tj TOP Tstg
j-c j-a
Stand-alone without heatsink
Terminal connections 1. VIN a: Type No. 2. VRST b: Lot No. 3. GND 4. DLY 5. VOUT (Forming No. 1101)
Electrical Characteristics
Parameter Input voltage Output voltage Dropout voltage Ripple rejection Quiescent circuit current Overcurrent protection starting current DLY terminal Threshold voltage Source current Symbol VIN VO VDIF RREJ Iq IS VDLYth I DLY VothL Voth VRSTH VRSTL I RSTH I RSTL 1.3
Ratings min 6 2 4.90 5.00 typ max 30 1 5.10 0.5 54 8.5 0.71 2.7 25
Conditions
Equivalent Circuit Diagram
VIN 1 5 VOUT
With infinite heatsink
Absolute Maximum Ratings
OCP DRIVE OVP DET
RESET
REF1 REF2
2.9 35 VO · 0.92 100
3.1 45 VO · 0.94 150
DLY terminal open
Reset threshold voltage level Reset threshold voltage hysteresis H-level output voltage
VO · 0.90 50 VO -0.1
VRST terminal Source current when H-level Sink current when L-level
L-level output voltage
Standard Circuit Diagram
Power supply
SI-3011S
VOUT VRST DLY
Reset signal output terminal
Reset Signal Output Timing Chart
VIN VO + VDIF
Input voltage
GND VOthH
Output voltage
VO VOthL VOth VDLY
Voltage across VDLYth delay capacitor
Output capacitor (47 to 100µF, 50V) Anti-oscillation capacitors (C1: approx. 47µF). This must be connected to terminals 1 (VIN) and 3 (GND) via the shortest possible routing. An approximately 0.33µF capacitor with good high frequency characteristics must be connected in parallel in case of inductive input lines or long-distance wiring. Tantalum capacitors are recommended for C1 and C0, especially at low temperatures. 2 D1, D2 : Protection diode. Required as protection against reverse biasing between input and output. (Recommended diode: Sanken EU2Z.)
VRSTH
Calculating tDLY Reset signal delay time tDLY is calculated from the following formula:
VRSTL
Reset signal output
0 (V) tDLY
VDLYth + 0.2 · CDLY IDLY is the current flowing from DLY terminal I DLY shown in the Standard Circuit Diagram.
s Io vs VDIF Characteristics
s Line Regulation
s Load Regulation
Dropout voltage VDIF (V)
Output voltage VO (V)
Output current IO (A)
Input voltage V IN (V) Output current IO (A)
s Output Voltage Temperature Characteristics
s Rise Characteristics
s Quiescent Circuit Current
Quiescent current lq (mA)
Output voltage VO (V)
Input voltage VIN (V)
s Overcurrent Protection Characteristics
Output current IO (A)
s Thermal Protection Characteristics
s Overvoltage Protection Characteristics
Output voltage VO (V)
Input voltage VIN (V)
s Ta-PD Characteristics
With infinite heatsink With silicone grease Heatsink: aluminum
Power Dissipation PD (W)
Note on Thermal Protection Characteristics: The thermal protection circuit is intended for protection against heat during instantaneous short-circuiting. Its operation, including reliability, is not guaranteed for short-circuiting over an extended period of time.
Without heatsink
Dropper Type Regulator with Reset Function SI-3011S
s VRST Terminal L-level Output Characteristics
s Reset Threshold Voltage Characteristics
s DLY Terminal Source Current Characteristics
IDLY (µA) DLY terminal source current
VRST (V) VRST (V)
VRST voltage
Input voltage VIN (V)
Output voltage VO (V)
s DLY Terminal Output Voltage Characteristics
s Reset Signal Delay Characteristics
5 100m
VRST (V) Delay time t (sec)
DLY terminal voltage VDLY (V)
VRST voltage
100µ 1000p
Delay capacitor capacity CDLY ( )
Dropper Type Dual Output Regulator SI-3101S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Parameter DC input voltage Battery reverse connection Output control terminal voltage CH1 Output current CH2 Power Dissipation PD2 Junction Temperature Operating temperature Storage temperature Junction to case thermal resistance Junction to ambient-air thermal resistance Tj TOP Tstg
j-c j-a
Ratings 40 -13 6 VIN 0.07 0.4 1 18 1.5 -40 to +125 -40 to +115 -40 to +125 5.5 66.7
VIN VINB VC IO1 IO2 PD1
One minute
1. VIN 2. VC (on / off) 3. GND 4. VO1 5. VO2
a: Type No. b: Lot No.
(Forming No. 1101)
Equivalent Circuit Diagram
OCP TSD DRIVE DET ERR REF
Symbol
Conditions
Electrical Characteristics
Parameter Input voltage CH1 Output voltage CH2 Channel-channel voltage difference (VO1 -VO2) Dropout voltage CH1 CH2 Line regulation CH1 CH2 Load regulation CH1 CH2 CH1 Ripple rejection CH2 Quiescent circuit current Overcurrent protection starting current Output control voltage
Output OFF Output ON
Ratings min 6 4.80 4.80 -0.3
Symbol VIN VO1 VO2 VO VDIF1 VDIF2 VO LINE1 VO LINE2 VO LOAD1 VO LOAD2 RREJ1 RREJ2 Iq I (S1) 1 I (S1) 2 VCH VCL I CH I CL VOVP
Conditions
OCP DRIVE OVP DET ERR
Standard Circuit Diagram
D3 D2 1 D1 2 VC SI-3101S 3 4 VO1 GND CO1 5 VO2 VIN
CH1 CH2
Output ON
Output control current
Output OFF
Overvoltage protection starting voltage Thermal protection starting temperature
Output capacitor (47 to 100µF, 50V) Output capacitor (47 to 100µF, 50V) Anti-oscillation capacitors (approx. 47µF). Tantalum capacitors are recommended, especially at low temperatures. 2 D1, D2, D3 : Protection diode. Required as protection against reverse biasing between input and output. (Recommended diode: Sanken EU2Z.)
s Line Regulation (1)
s Line Regulation (2)
s Load Regulation (1)
Output voltage VO (V) Output voltage VO (V)
Output voltage VO (V)
50mA 5.0 70mA
Input voltage V IN (V)
Output current IO (mA)
s Load Regulation (2)
s Rise Characteristics
s Circuit Current
Ground current lg (mA)
Output voltage VO (V)
Output current IO (A)
Input voltage VIN (V)
s ON / OFF Control Characteristics
s Overcurrent Protection Characteristics (1)
s Overcurrent Protection Characteristics (2)
Output voltage VO (V)
Output ON / OFF control voltage VC (V)
Output current IO (A)
s Thermal Protection Characteristics
s Overvoltage Protection Characteristics
s Ta-PD Characteristics
With infinite heatsink With silicone grease G746 (Shin-Etsu Chemical) Heatsink: aluminum
VO1 VO2
Power Dissipation PD (W)
Output voltage VO (V)
Without heatsink
Input voltage VIN (V)
Dropper Type Dual Output Regulator SI-3102S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Parameter DC input voltage Battery reverse connection Output control terminal voltage CH1 Output current CH2 Power Dissipation PD2 Junction temperature Operating temperature Storage temperature Junction to case thermal resistance Junction to ambient-air thermal resistance Tj TOP Tstg
j-c j-a
Ratings 35 -13 6 VIN 0.04 1 0.1 1 22 1.8 -40 to +150 -40 to +105 -40 to +150 5.5 66.7 Unit V V V A A
Symbol VIN VINB VC IO1 IO2 PD1
Conditions
One minute
With infinite heatsink Stand-alone without heatsink
1. VIN 2. VC (on / off) 3. GND 4. VO1 5. VO2
a: Type No. b: Lot No.
(Forming No. 1101)
Equivalent Circuit Diagram
Stand-alone without heatsink
DET ERR REF
Electrical Characteristics
Parameter Input voltage CH1 Output voltage CH2 Channel-channel voltage difference (VO1 -VO2) Dropout voltage CH1 CH2 CH1 Line regulation CH2 CH1 Load regulation CH2 CH1 Ripple rejection CH2 Quiescent circuit current Overcurrent protection starting current Output control voltage
Output OFF Output ON
Symbol VIN VO1 VO2 VO VDIF1 VDIF2 VO LINE1 VO LINE2 VO LOAD1 VO LOAD2 RREJ1 RREJ2 Iq I (S1) 1 I (S1) 2 VCH VCL I CH I CL VOVP
DRIVE
OCP DRIVE OVP DET ERR
Standard Circuit Diagram
D3 D2 1 D1 SI-3102S 2 VC 3 4 VO1 GND CO1 5 VO2
CH1 CH2
Output ON
Output control current
Output OFF
Overvoltage protection starting voltage Thermal protection starting temperature
V CO1 : CO2 : 1 CIN : Output capacitor (47 to 100µF, 50V) Output capacitor (47 to 100µF, 50V) Anti-oscillation capacitors (approx. 47µF). Tantalum capacitors are recommended, especially at low temperatures. 2 D1, D2, D3 : Protection diode. Required as protection against reverse biasing between input and output. (Recommended diode: Sanken EU2Z.)
s Line Regulation (1)
s Line Regulation (2)
s Load Regulation (1)
Output voltage VO (V) Output voltage VO (V)
Output voltage VO (V)
Input voltage V IN (V)
Input voltage VIN (V)
Output current IO (mA)
s Load Regulation (2)
s Rise Characteristics
s Circuit Current
Output voltage VO (V) Output voltage VO (V)
Ground current lg (mA)
Output current IO (mA)
Input voltage VIN (V)
s ON / OFF Control Characteristics
s Overcurrent Protection Characteristics (1)
s Overcurrent Protection Characteristics (2)
Output ON / OFF control voltage VC (V) Output current IO (mA)
Output current IO (A)
Output voltage VO (V)
s Thermal Protection Characteristics
s Overvoltage Protection Characteristics
s Ta-PD Characteristics
With infinite heatsink With silicone grease G746 (Shin-Etsu Chemical) Heatsink: aluminum
Power Dissipation PD (W)
Output voltage VO (V)
Without heatsink
Input voltage VIN (V)
Switching Type Regulator SI-3201S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Parameter Input voltage Output voltage SQ terminal voltage with respect to ground Power Dissipation PD2 Junction temperature Storage temperature Junction to case thermal resistance Junction to ambient-air thermal resistance Tj Tstg
j-c j-a
Symbol VIN IO VO, SQ PD1
Conditions
1. VIN 2. SWOUT 3. GND 4. VOS 5. SS
a: Type No. b: Lot No.
(Forming No. 1101)
Standard Circuit Diagram
VIN 1 VIN
SI-3201S
Recommended Operating Conditions
GND C3
Conditions
Electrical Characteristics
Parameter Output voltage Line regulation Load regulation Efficiency 1 Oscillation frequency Quiescent circuit current Overcurrent protection starting current Soft 3 start terminal Low level voltage Source current when low Discharge resistance f OSC Iq IS VSSL I SSL RDIS Symbol
C1: 1000µF C2: 1000µF a: Internal power supply b: Thermal protection c: Reference oscillator d: Reset e: Latch & driver
L 1: 250µH D1: RK46 (Sanken) f : Comparator g: Overcurrent protection h: Error amplifier i : Reference voltage
VO VO LINE VO LOAD
Cautions: (1) A high-ripple current flows through C1 and C2. Use high-ripple type 1000µF or higher capacitors with low internal resistance. Refer to the respective data books for more information on reliability and electrical characteristics of the capacitor. (2) C3 is a capacitor used for soft start. (3) L1 should be a choke coil with a low core loss for switching power supplies. (4) Use a Schottky barrier diode for D1 and make sure that the reverse voltage applied to the 2nd terminal (SQ terminal) is within the maximum ratings (-1V). If you use a fast-recovery diode, the recovery voltage and the ON forward voltage may cause a reversed-bias voltage exceeding the maximum ratings to be applied to the 2nd terminal (SQ terminal). Applying a reversed-bias voltage exceeding the maximum rating to the 2nd terminal (SQ terminal) may damage the IC. (5) The 4th terminal (VS) is an output voltage detection terminal. Since this terminal has a high impedance, connect it to the positive (+) terminal of C2 via the shortest possible route. (6) Leave the 5th terminal (soft start terminal) open when not using it. It is pulled up internally. (7) To ensure optimum operating environment, connect the highfrequency current line with minimum wiring length.
SI-3201S
s Line Regulation
s Load Regulation
s Rise Characteristics
Output voltage VO (V)
Output voltage VO (V) Output voltage VO (V)
Input voltage V IN (V)
Output current IO (A)
Input voltage VIN (V)
s Efficiency Curve
s Overcurrent Protection Characteristics
Output voltage VO (V)
s Overcurrent Protection Temperature Characteristics
Output voltage VO (V)
Efficiency
Output current IO (A)
s Ta-PD Characteristics
With infinite heatsink With silicone grease Heatsink: aluminum
Power Dissipation PD (W)
High-side Power Switch with Diagnostic Function SI-5151S
Features
q Built-in diagnostic function to detect short and open circuiting of loads and output status signals q Low saturation PNP transistor use q Allows direct driving using LS-TTL and C-MOS logic levels q Built-in overcurrent and thermal protection circuits q Built-in protection against reverse connection of power supply q TO-220 equivalent full-mold package not require insulation mica
External Dimensions (unit: mm)
Absolute Maximum Ratings
Conditions
R-end
1. GND 2. VIN 3. VO 4. DIAG 5. VB
a: Type No. b: Lot No.
(Forming No. 1123)
Standard Circuit Diagram
Electrical Characteristics
Parameter Operating power supply voltage Quiescent circuit current Saturation voltage of output transistor Output leak current Output ON Input voltage Output OFF Output ON Input current Output OFF Overcurrent protection starting current Thermal protection starting temperature Open load detection resistor Output transfer time TOFF VDH DIAG output voltage VDL TPLH DIAG output transfer time TPHL Minimum load inductance L 1 30 0.3 30 4.5 15 30 6 I IL IS -0.1 1.9 VIL I IH -0.3 0.8 1 Symbol VBopr Iq VCE (sat) 1.0 IO, leak VIH 2.0 2 VB Ratings min 6.0 5 typ max 30 12 0.5
LS-TTL or CMOS 1
PZ VCC
Conditions
SI-5151S
Truth table VIN VO
Diagnostic Function
VIN DIAG VO L L L H H H L H H Open load H H H L L L Shorted load H L L L L L Overheat H L L q DIAG output will be undetermined when a voltage exceeding 25V is applied to VB terminal.
Normal
Open load
Shorted load
Overheat
Normal
VIN VO DIAG
Normal
20 max
s Quiescent Circuit Current
s Circuit Current
s Saturation Voltage of Output Transistor
IB (mA)
VCE (sat) (V)
Iq (mA)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold input voltage
s Input Current (Output ON)
s Input Current (Output OFF)
IIH (mA)
VO (V)
IIL (µA)
VIN (V)
s Saturation Voltage of DIAG Output
s Thermal Protection Characteristics
VDG (sat) (V)
DIAG (V)
VO (V)
High-side Power Switch with Diagnostic Function SI-5152S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Conditions
1. GND 2. VIN 3. Vo 4. DIAG 5. VB
a: Type No. b: Lot No.
(Forming No. 1111)
Standard Circuit Diagram
Electrical Characteristics
Ratings Parameter Operating power supply voltage Quiescent circuit current Saturation voltage of output transistor Output leak current Output ON Input voltage Output OFF Output ON Input current Output OFF Overcurrent protection starting current Thermal protection starting temperature Open load detection resistor Output transfer time TOFF DIAG output leak current Saturation voltage of DIAG output DIAG output transfer time TPHL Minimum load inductance L 1 30 IDIAG VDL TPLH 15 30 100 0.3 30 I IL IS -0.1 1.9 VIL I IH -0.3 0.8 1 Symbol VBopr Iq VCE (sat) 1.0 IO, leak VIH 2.0 2 VB min 6.0 5 typ max 30 12 0.5
SI-5152S
VIN 2 LS-TTL or CMOS
Conditions
Shorted load Overheat Normal
Truth table VO
Diagnostic Function
Normal Open load
TTSD Ropen TON
VIN VO DIAG
Mode Normal
Open load Shorted load Overheat
q DIAG output will be undetermined when a voltage exceeding 25V is applied to VB terminal.
20 max
s Quiescent Circuit Current
s Circuit Current
s Saturation Voltage of Output Transistor
Iq (mA)
IB (mA)
VCE (sat) (V)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold input voltage
s Input Current (Output ON)
s Input Current (Output OFF)
IIH (mA)
VO (V)
IIL (µA)
VIN (V)
s Saturation Voltage of DIAG Output
VDL (V)
High-side Power Switch with Diagnostic Function and Built-in Zener Diode SI-5153S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Conditions
1. GND 2. VIN 3. Vo 4. DIAG 5. VB
a: Type No. b: Lot No.
Refer to "Surge clamp voltage" in Electrical Characteristics
(Forming No. 1111)
Standard Circuit Diagram
Electrical Characteristics
Ratings Parameter Operating power supply voltage Quiescent circuit current Saturation voltage of output transistor Output leak current Output ON Input voltage Output OFF Output ON Input current Output OFF Overcurrent protection starting current Thermal protection starting temperature Open load detection resistor Output transfer time TOFF VDH DIAG output voltage VDL TPLH DIAG output transfer time TPHL Minimum load inductance Surge clamp voltage L 1 28 34 40 30 0.3 30 4.5 15 30 6 I IL IS -0.1 2.05 VIL I IH -0.3 0.8 1 Symbol VBopr Iq VCE (sat) IO, leak VIH 2.0 min 6.0 5 typ max 30 12 0.47 2 VB
SI-5153S
LS-TTL or CMOS 1 VIN 2
20 max
Overheat Normal
Truth table VIN VO
Diagnostic Function
Normal Open load Shorted load
TTSD Ropen TON
VBopr 6V
VIN DIAG VO L L L H H H L H H Open load H H H L L L Shorted load H L L L L L Overheat H L L q DIAG output will be undetermined when a voltage exceeding 25V is applied to VB terminal.
VO DIAG
Normal
s Quiescent Circuit Current
s Circuit Current
s Saturation Voltage of Output Transistor
VCE (sat) (V)
Iq (mA)
IB (mA)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold Characteristics of Input Voltage
s Input Current (Output ON)
s Input Current (Output OFF)
I IH (mA)
I IL (µA)
VO (V)
VIN (th) (V)
s Output Terminal Leak Current
s Saturation Voltage of DIAG Output
s Thermal Protection Characteristics
IO leak (mA)
VDL (V)
VO (V)
0.2 5 VDIAG
High-side Power Switch with Diagnostic Function and Built-in Zener Diode SI-5154S
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Conditions
Refer to "Surge clamp voltage" in Electrical Characteristics
1. GND 2. VIN 3. Vo 4. DIAG 5. VB
a: Type No. b: Lot No.
(Forming No. 1111)
Standard Circuit Diagram
Electrical Characteristics
Ratings Parameter Operating power supply voltage Quiescent circuit current Saturation voltage of output transistor Output leak current Output ON Input voltage Output OFF Output ON Input current Output OFF Overcurrent protection starting current Thermal protection starting temperature Open load detection resistor Output transfer time TOFF VDH DIAG output voltage VDL TPLH DIAG output transfer time TPHL Minimum load inductance Surge clamp voltage L 1 28 34 40 30 0.3 30 4.5 15 30 6 I IL IS -0.1 2.6 VIL I IH -0.3 0.8 1 Symbol VBopr Iq VCE (sat) 0.72 IO, leak VIH 2.0 2 VB min 6.0 5 typ max 30 12 0.3
LS-TTL or CMOS VIN 2
SI-5154S
Overheat Normal
Truth table VIN VO
Diagnostic Function
Normal Open load Shorted load
TTSD Ropen TON
VIN VO DIAG
Mode Normal
Open load Shorted load Overheat
q DIAG output will be undetermined when a voltage exceeding 25V is applied to VB terminal.
20 max
s Quiescent Circuit Current
s Circuit Current
s Saturation Voltage of Output Transistor
Iq (mA)
IB (mA)
VCE (sat) (V)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold input voltage
s Input Current (Output ON)
s Input Current (Output OFF)
I IH (mA)
I IL (µA)
VO (V)
VIN (th) (V)
s Output Terminal Leak Current
s Saturation Voltage of DIAG Output
s Thermal Protection Characteristics
IO leak (mA)
VDL (V)
VO (V)
VDIAG
High-side Power Switch with Diagnostic Function SI-5155S
Features
External Dimensions (unit: mm)
Parameter Power supply voltage Input terminal voltage DIAG terminal voltage Collector-emitter voltage Output current Power dissipation
Symbol VB VIN VDIAG VCE IO PD1 PD2
Conditions
1. GND 2. VIN 3. Vo 4. DIAG 5. VB
a: Type No. b: Lot No.
(Forming No. 1111)
Junction temperature Operating temperature Storage temperature
Tj TOP Tstg
Standard Circuit Diagram
Electrical Characteristics
Ratings Parameter Operating power supply voltage Quiescent circuit current Saturation voltage of output transistor Output leak current Output ON Input voltage Output OFF Output ON Input current Output OFF Overcurrent protection starting current Thermal protection starting temperature Open load detection resistor Output transfer time TOFF VDH DIAG output voltage VDL TPLH DIAG output transfer time TPHL Minimum load inductance L 1 30 0.3 30 4.5 15 30 6 I IL IS -0.1 2.6 VIL I IH -0.3 0.8 1 Symbol VBopr Iq VCE (sat) 0.72 IO, leak VIH 2.0 2 VB min 6.0 5 typ max 30 12 0.3
VIN 2 LS-TTL or CMOS
Absolute Maximum Ratings
20 max
PZ VCC
SI-5155S
Overheat Normal
Truth table VIN VO
Diagnostic Function
Normal Open load Shorted load
TTSD Ropen TON
VIN VO DIAG
Mode Normal
Open load Shorted load Overheat
q DIAG output will be undetermined when a voltage exceeding 25V is applied to VB terminal.
s Quiescent Circuit Current
s Circuit Current
s Saturation Voltage of Output Transistor
IB (mA)
VCE (sat) (V)
Iq (mA)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold input voltage
s Input Current (Output ON)
s Input Current (Output OFF)
I IH (mA)
I IL (µA)
VO (V)
VIN (th) (V)
s Output Terminal Leak Current
s Saturation Voltage of DIAG Output
s Thermal Protection Characteristics
IO leak (mA)
VDL (V)
VO (V)
0.2 5 VDIAG
Surface-mount Dual Circuit High-side Power Switch Array SDH04
Features
External Dimensions (unit: mm)
SMD-16A
0 to 0.15
Absolute Maximum Ratings
Conditions
a: Type No. b: Lot No.
Equivalent Circuit Diagram
Without heatsink, all circuits operating
The MIC is bound by the dotted lines. 9, 12, 16 VB 2
Pre. Reg. IN1 DIAG1 2 3 DIAG DET.
CONT. 11k typ. O.C.P
Drive
1, 15 T.S.D 14
Electrical Characteristics
Parameter Operating power supply voltage Quiescent circuit current Threshold input voltage Hi output Input current Lo output Saturation voltage of output transistor Output terminal sink current Saturation voltage of DIAG output Leak current of DIAG output Open load detection resistor Overcurrent protection starting current Thermal protection starting temperature Output transfer time TOFF TPLH DIAG output transfer time TPHL I IN VCE (sat) IO (off) VDL IDGH Ropen IS 1 1.6 0 Symbol VBopr Iq VINth I IN 0.8 min 6.0
Out1 2
Ratings typ max 16 5 12 3.0 1.0 100 0.5 2.0 0.3 100 30 Unit V
DIAG2
Conditions
IN2 7 6 DIAG DET.
CONT. 11k typ. O.C.P
Drive
Lo output
Abbreviations Drive: Drive circuit CONT: ON / OFF circuit Pre.Reg: Pre-regulator
DIAG.DET.: Diagnostic circuit O.C.P.: Overcurrent protection T.S.D.: Thermal protection
1. The base terminal (D terminal) is connected to the output transistor base. It is also connected to the control monolithic IC. Do not, therefore, apply an external voltage in operation. 2. SDH04 have two or three terminals of the same function (VB, Out1, Out 2, GND). The terminals of the same function must be shorted at a pattern near the product.
TTSD TON
Standard Circuit Diagram
VB PZ D1 Out
SDH04
IN DIAG
Diagnostic Function
GND VB
Truth table VIN VO
GND VIN
SHORT Is OPEN OPEN OVER VOLTAGE TSD
Note 1: A pull-down resistor (11 k typ.) is connected to the IN terminal. VOUT turns "L" when a high impedance is connected to the IN terminal in series.
GND VDIAG
Normal Shorted load Open load Overvoltage Overheat ERROR SIGNAL for CPU
s Quiescent Circuit Current (dual circuit)
s Circuit Current (single circuit)
s Circuit Current (dual circuit)
Iq (mA)
IB (mA)
VO shorted VO open 0 0 10 20 30 40 46
VB (V)
s Saturation Voltage of Output Transistor
VCE (sat) (V)
VO (V)
IO (A)
s Threshold Characteristics of Input Voltage
s Input Terminal Source Current
IIN (mA)
VO (V)
IO (A)
VIN (V)
s Input Terminal Sink Current
s Saturation Voltage of DIAG Output
s Thermal Protection Characteristics
IINL (µA)
VDL (V)
VO (V)
3-circuit High-side Power Switch Array SLA2501M
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Parameter Power supply voltage Drive terminal applied voltage Input terminal voltage DIAG output applied voltage DIAG output source current Voltage across power supply and output terminal Voltage across power supply and drive terminal Output current Output reverse current Electrostatic resistance Power Dissipation Symbol VB VD VIN VDIAG IDIAG VB-O Ratings -13 to +40 -0.3 to VB -0.3 to +7.0 -0.3 to +7.0 -3 VB -34 Unit V V
Conditions
a: Type No. b: Lot No.
Equivalent Circuit Diagram
VB-D IO IO ES / A PD Tj TOP Tstg
Junction temperature Operating temperature Storage temperature
Electrical Characteristics
Parameter Operating power supply voltage Quiescent circuit current (per circuit) Circuit current (per circuit) Threshold input voltage Hi output Input voltage Lo output Hi output Input current Lo output Saturation voltage of output transistor Output terminal sink current Surge clamp voltage Saturation voltage of DIAG output Leak current of DIAG output Open load detection resistor Overcurrent protection starting current Thermal protection starting temperature Output transfer time TOFF TPLH DIAG output transfer time TPHL Minimum load inductance Maximum ON duty Lo D(ON) 1.0 0 I IN VCE (sat) VCE (sat) IO (off) 29 VB-O 28 VDL IDGH Ropen IS 5.5 1.6 100 VIN I IN Symbol VBopr Iq IB VINth VIN 0.8 3.7 min 6.0
a: Pre-regulator b: Overvoltage protection circuit c: Control circuit d: Driver circuit
e: Overcurrent protection circuit f: Diagnostic circuit g: Thermal protection circuit
Standard Circuit Diagram
VB VCC
1 VB IN1 IN2
SLA2501M
FLT2 8
12 IN3
FLT3 13 GND1 GND2 OUT1 OUT2 OUT3 6 11 2 10 15
Diagnostic Function
Normal Open load Shorted load Overheat Normal
TTSD TON 30 100 30 100
VIN VO VDIAG
Note: The Zener diode has an energy capability of 200 mJ (single pulse). A start failure may occur if a short OFF signal of 10 ms or below is input in the VIN terminal.
s Quiescent Circuit Current (single circuit)
s Circuit Current (single circuit)
s Saturation Voltage of Output Transistor
Iq (mA)
IB (mA)
VCE (sat) (V)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold Input Voltage
s Input Current (Output ON)
s Input Current (Output OFF)
IIH (mA)
VO (V)
IIL (µA)
VIN (V)
s Saturation Voltage of DIAG Output
s Output Reverse Current
s Thermal Protection
VDL (V)
VF (V)
VO (V)
VFLT (V)
IF (A)
4-circuit High-side Power Switch Array SLA2502M
Features
External Dimensions (unit: mm)
Absolute Maximum Ratings
Conditions
a: Type No. b: Lot No.
Stand-alone operation without heatsink all circuits operating
Equivalent Circuit Diagram
SLA2502M
The MIC is bound by the dotted lines. Pre. Reg. 8 VB
Electrical Characteristics
Parameter Operating power supply voltage Quiescent circuit current (per circuit) Threshold input voltage Hi output Input current Lo output Saturation voltage of output transistor Output terminal sink current Saturation voltage of DIAG output Leak current of DIAG output Open load detection resistor Overcurrent protection starting current Output transfer time TOFF TPLH DIAG output transfer time TPHL I IN VCE (sat) IO (off) VDL IDGH Ropen IS TON 1.6 0 Symbol VBopr Iq VINth I IN 0.8 min 6.0
CONT. 11k typ.
Drive
O.C.P
DIAG1
DIAG DET
1 T.S.D
NI2 DIAG2 GND1
CONT. 11k typ.
Drive
O.C.P
DIAG DET
Pre. Reg. NI3 DIAG3 10 11
DIAG DET
CONT. 11k typ.
Drive
O.C.P
9 T.S.D
NI4 DIAG4 GND4
CONT. 11k typ.
Drive
O.C.P
DIAG DET
DIAG.DET.: Diagnostic circuit O.C.P.: Overcurrent protection T.S.D.: Thermal protection
Standard Circuit Diagram
VB D1 Out PZ
Diagnostic Function
SLA2502M
Truth table VIN VO
SHORT Is OPEN OPEN OVER VOLTAGE TSD
GND VDIAG
Normal Shorted load Open load Overvoltage Overheat
Note 1: A pull-down resistor (11k typ.) is connected to the IN terminal. VOUT turns "L" when a high impedance is connected to the IN terminal in series. Note 2: Grounds GND1 and GND2 are not wired internally. They must be shorted at a pattern near the product.
ERROR SIGNAL for CPU
s Circuit Current (single circuit)
s Circuit Current (4 circuits)
s Saturation Voltage of Output Transistor
VCE (sat) (V)
IB (mA)
VB (V)
IO (A)
VO (V)
IO (A)
s Threshold Input Voltage
s Input Current (Output OFF)
s Input Sink Current (Output Hi)
I IL (µA)
VO (V)
I IH (mA)
VIN (V)
s Saturation Voltage of DIAG Output
s Quiescent Circuit Current (dual circuit)
s Thermal Protection Characteristics
Iq (mA)
VDL (V)
VO (V)
5 VO shorted VO open 10 20 30 40 46 0 0 50 100 150 200
VB (V)
4-circuit High-side Power Switch Array SLA2502M
s Thermal Protection Characteristics
s Open Load Detection Resistor
VO1 (V)
IOLEAK (mA)
ROPEN (k)
VB (V)
Surface-mount 4-circuit Low-side Switch Array SPF5001
Features
q DMOS 4ch output q Allows ON / OFF using C-MOS logic level q Built-in overcurrent, overvoltage and thermal protection circuits
External Dimensions (unit: mm)
Fin thickness
Parameter Power supply voltage Output terminal voltage Input terminal voltage Output current Power Dissipation Storage temperature Channel temperature Output avalanche capability
Symbol VB VOUT VIN IO PD Tstg Tch EAV
Ratings 40 40 -0.5 to +7.5 1.8 2 -40 to +150 150 100
Conditions
Absolute Maximum Ratings
Single pulse
Equivalent Circuit Diagram
VB VOUT1
Gate Protction
Electrical Characteristics
Parameter Power supply voltage Quiescent circuit current Hi output Input voltage Lo output Hi output Input current Lo output Output ON voltage I IN VIN I IN Symbol VBopr Iq VIN
Reg. REF
VIN4 VOUT4 VIN3 VOUT3
Gate Driver
Conditions
TSD OCP
P-GND VIN1
250 k typ
VOUT2
L-GND
Output ON resistance Output clamp voltage Output leak current Forward voltage of output stage diode Overvoltage protection starting voltage Thermal protection starting temperature Overcurrent protection starting current Output transfer time Output rise time Output fall time
RDS (on) 0.3 VOUT (clamp) I OH VF 41 45
Circuit Example
Stepper motor
VB (ovp)
4 6 IN1 IN2 IN3 IN4
OUT1 OUT3
OUT2 OUT4
IS TON TOFF Tr Tf
12 14 CONTROL UNIT
SPF5001
L-GND 13 P-GND 1, 9
Truth table VIN VO
Use L-GND and P-GND being connected.
Timing Chart
VB VOUT
Normal Overvoltage Overheat Overcurrent
Self-excited frequency is used in the overcurrent protection.
s Quiescent Circuit Current
s Circuit Current (single circuit)
s Circuit Current (4 circuits)
Iq (mA)
VB (V)
s Threshold Input Voltage
s Output ON Voltage
s Forward Voltage of Output Stage Diode
VDS (ON) (V)
VO (V)
VIN (th) (V)
IO (A)
VF (V)
s Overvoltage Protection Starting Voltage
VO (V)
VB (V)
Surface-mount 4-circuit Low-side Switch Array SPF5002
Features
q DMOS 4ch output q Allows ON / OFF using C-MOS logic level q Built-in overcurrent, overvoltage and thermal protection circuits
External Dimensions (unit: mm)
Fin thickness
Parameter Power supply voltage Output terminal voltage Input terminal voltage Output current Power Dissipation Storage temperature Channel temperature Output avalanche capability
Symbol VB VOUT VIN IO PD Tstg Tch EAV
Absolute Maximum Ratings
Equivalent Circuit Diagram
VB VOUT 1
Gate Protction
Electrical Characteristics
Parameter Power supply voltage Quiescent circuit current Hi output Input voltage Lo output Hi output Input current Lo output Output ON voltage I IN VDS (on) VIN I IN Symbol VBopr Iq VIN
Ratings min 5.5 4 3.5 -0.5 typ max 32 6 5.5 1.5 50 30 0.4 0.7 0.4 Unit V
Reg. REF OVP Gate Driver
Conditions
TSD OCP
P-GND
250 k typ
VOUT 2
Stepper motor
VOUT 3
VIN 4 L-GND
VOUT 4
Output ON resistance Output clamp voltage Output leak current Forward voltage of output stage diode Overvoltage protection starting voltage Thermal protection starting temperature Overcurrent protection starting current Output transfer time
RDS (on) 0.5 VOUT (clamp) I OH VF 41 45 55 100 1.6
Circuit Example
VB (ovp)
VCC 2 4 6 IN1 IN2 IN3 IN4 L-GND 13 P-GND 1, 9 10 7 15 5 VB
OUT1 OUT3
OUT2 OUT4
IS TON TOFF
12 14 CONTROL UNIT
SPF5002
Output rise time Output fall time
Truth table VIN VO
Use L-GND and P-GND being connected.
Timing Chart
VB VOUT
Normal Overvoltage Overheat Overcurrent
Self-excited frequency is used in the overcurrent protection.
Stepper Motor Driver SLA4708M
Features
q High output breakdown voltage of 50V q Affluent output current of 1.5A q Built-in overcurrent, overvoltage and thermal protection circuits q Low standby current of 50µA
External Dimensions (unit: mm)
8.5max
Parameter Power supply voltage Breakdown voltage Input voltage Output current Diagnostic output sink current Diagnostic output withstand voltage Operating temperature Storage temperature Power Dissipation
Symbol VS VO VIN IO, AVE IDIAG IDIAG. H Top Tstg PD
Conditions
9.5min (10.4)
Absolute Maximum Ratings
a) Type No. b) Lot No.
Without heatsink
Standard Circuit Diagram Electrical Characteristics
5V 2 STBY P-GND 6 L-GND 11 L-GND 7 N.C. 4 OUTA 5 OUT A 9 OUT B 8 1 OUT B VS 12 DIAG 3 I
Conditions
SLA4708M
Stepper motor
s Power Supply Current Characteristics
s Overvoltage Protection Characteristics
Output voltage VO (V)
s Saturation Voltage of Output Transistor Characteristics
Saturation voltage of output transistor Vsat (V)
Common for all phases
Power supply current
At Constant IS (mA)
At standby IS (µA)
Power supply voltage VS (V)
Output current IO (A)
s Thermal Protection Characteristics
Output voltage VO (V)
Hall-Effect ICs
Unipolar Switch
Package UA
External Dimensions
A3121 A3122 A3123 A3141 A3142 A3143 A3144
Bipolar Switch
Absolute Maximum Ratings Type No. VCC (V)
Package B HYS (mT) min 3 3 U UA
I OUT (mA) 25 25 25
VCC (V) min max 4.5 4.5 3.8 24 24 24
B OP (mT) max min 9.5 7.5 -3 4.5
B RP (mT) max min -9.5 -7.5 -4 2
External Dimensions
N: -20 to +85 S: -40 to +125 E: -40 to +85 L: -40 to +150
A3134
Bipolar Latch
Absolute Maximum Ratings Type No. VCC (V) 18
Package B HYS (mT) min 10 10 10 34 14 10 20 10 13 13 U UA
I OUT (mA) 15 15
VCC (V) min max 4.5 4.5 18 18 18 24 24 24 24 24 26
B RP (mT) min max -17 -17 -15 -27 -33 -15 -18 -23 -16 -16 -2.5 -2.5 -5 -17 -7 -5 -10 -5 -5 -5
External Dimensions
A3174XU UGN3175 UGN3177 A3185 A3186 A3187 A3188 A3189
-40 to +115 -20 to +85
15 25 25 25 25 25 - -40 to +150 - E: -40 to +85 L: -40 to +150
A3195LU A3197LU
VCC (UV) 26
Gear Tooth Sensor
External Dimensions
UGS3059KA UGS3060KA
Linear Sensors
Over operating temperature range
External
A3506LU A3507EU A3507LU A3508SU
Subassembly
Remarks
External Dimensions
ATS610LSA ATS611LSB
External Dimensions (unit: mm)
Figure 1
Figure 2
Figure 3
2.01 15.24 MIN
14.22 MIN 0.41
0.44 0.56 1.50 BSC 3.00 BSC
1.27 BSC
SUFFIX "U"
SUFFIX "UA"
SUFFIX "LT"
Figure 4
1.96 12.70 MIN
1.27 BSC
SUFFIX "KA"
Figure 5
1.27 TYP 2 3 0.41
5.0MIN
SUFFIX "SA"
0.9 DIA
1.27 TYP 1 0.38 2 3 0.41
7.0MIN
SUFFIX "SB"
0.9 DIA
Custom IC
s Various processing technologies of BIP, BiCMOS, CMOS and BCD can be used for the semiconductor chips. s Meets detailed user needs, especially power ICs. A wide range of general-purpose ICs is also available. s Employs a monolithic chip with flip-chip construction for increased reliability making it ideal for car electronic devices. s Also available in hybrid ICs with transfer mold construction, multi-chip IC configuration and power monolithic IC configuration.
Features
Examples of Sanken Automotive Hybrid ICs
Lead frame type multi-chip power IC
q One-chip power IC
Examples of Custom Hybrid IC Products
q Regulators for alternators q Igniters q Power supply for microcomputer system q Power steering control IC q Motor and actuator driver q Others
Lead frame type power hybrid IC with ceramic substrate
q High-output high-breakdown voltage IC q Simplified integration of custom circuits q Distribution of unit functions (Actuators may be built in the device)
Surface-mount power IC
External Dimensions (unit: mm)
MT-100
FM205
STA 8pin
STA 10pin
SMA12pin
SMA15pin
SLA12pin
SLA15pin
SLA18pin
3GR-F
3GR-M
STR-S
SMD16pin
SPF16pin
SPF24pin
Transistors and MOS FETs
Transistors and MOS FETs by Application
Application Type No. Page
Igniters
2SD2141 2SC4153 2SD2382 STA461C STA463C STA508A SDC09 2SA1488 2SA1488A 2SA1568 2SC4065 SLA8004 2SA1567 SDA03 SDA04 2SA1488 FP812 FKV460 FKV460FP FKV560 FKV560FP FKV560S FKV660 FKV660S SLA5027 2SC3852 STA315A STA335A STA415A STA509A SDK06 SDK08 2SC4024 2SK2701 SMA5113 2SC3851 FN812
Injectors
AT (Automatic Transmissions)
Cruise controls
Airbag systems
Boosters for power supply of microcomputers
Power steering
ABS Electronic meters
Solenoid drivers
Clutch controls Lamp controls
Others
Transistors and MOS FETs by Load
Type No.
2SA1488A 2SC3852 2SC3851 STA315A
Approx. 0.5A
Single Single Single Single · 3 Single · 2 Single · 4 MOS · 4 MOS · 4 Single Single Single Single · 4 Single · 2 MOS · 4 Single · 2 Single · 2 MOS · 4 MOS · 4 Single Single MOS Single Single Single · 4 Single Single Single Darlington MOS · 4 MOS MOS MOS MOS MOS MOS MOS
STA335A STA415A STA509A SDK06 2SA1488 2SC3851 2SC4153 SDA03 SDC09
Approx. 1.2A
SDK08 STA461C STA463C STA508A SMA5113 2SA1567 2SD2382 2SK2701
Approx. 3A
FP812 FN812 SLA8004 2SC4024 2SC4065
Approx. 5A
2SA1568 2SD2141 SLA5027 FKV460 FKV560 FKV660
Approx. 10A
FKV560S FKV660S FKV460FP FKV560FP
Power Transistor 2SA1488 / 1488A
Electrical Characteristics
Symbol ICBO IEBO V(BR) CEO hFE VCE (sat) fT COB Test Conditions
Typical Switching Characteristics (common emitter)
VCC (V) -12 RL () 6 IC (A) -2 VBB1 (V) -10 VBB2 (V) 5 IB1 (mA) -200 t on t stg tf IB2 (mA) (µs) (µs) (µs) 200 0.25typ 0.75typ 0.25typ
External Dimensions FM20 (full-mold)
a) Type No. b) Lot No. (Unit: mm)
s IC -VCE Characteristics (typ.)
s VCE (sat)-IB Characteristics (typ.)
-50mA
s IC -VBE Temperature Characteristics (typ.)
-60mA
-40mA
VCE (sat) (V)
-30mA
IC (A)
-20mA
-1A 0 0 -1 -2 -3 -4 -5 -6 0 -0.01 -0.05 -0.1 -0.5 -1 0 0
-10mA
VCE (V)
IB (A)
VBE (V)
s hFE -IC Characteristics (typ.)
s hFE -IC Temperature Characteristics (typ.)
j-a -t
Characteristics
IC (A)
t (ms)
s f T -IE Characteristics (typ.)
s Safe Operating Area (single pulse)
s PC -Ta Derating
natural air cooling Silicone grease Aluminum heatsink Unit: mm
100ms
fT (MHz)
PC (W)
IC (A)
Without heatsink natural air cooling
Without heatsink
IE (A)
VCE (V)
Power Transistor 2SA1567
Electrical Characteristics
External Dimensions FM20 (full-mold)
VCC (V) -24
IC (A) -6
VBB1 (V) -10
VBB2 (V) 5
IB1 (mA) -120
IB2 t on t stg tf (mA) (µs) (µs) (µs) 120 0.4typ 0.4typ 0.2typ
Typical Switching Characteristics (common emitter)
a) Type No. b) Lot No. (Unit: mm)
s IC -VCE Characteristics (typ.)
s VCE (sat)-IB Characteristics (typ.)
s IC -VBE Temperature Characteristics (typ.)
-100mA
VCE (sat) (V)
-60mA
IC (A)
atu per
-40mA
-20mA
-0.5 -6A -3A -1A 0 -2
-10mA
VCE (V)
IB (mA)
VBE (V)
s hFE -IC Characteristics (typ.)
s hFE -IC Temperature Characteristics (typ.)
j-a -t
Characteristics
IC (A)
t (ms)
s f T -IE Characteristics (typ.)
s Safe Operating Area (single pulse)
s PC -Ta Derating
natural air cooling Silicone grease Aluminum heatsink Unit: mm
fT (MHz)
PC (W)
IC (A)
ith in
Without heatsink natural air cooling
ite he at sin
Without heatsink
IE (A)
VCE (V)
Power Transistor 2SA1568
Electrical Characteristics
External Dimensions FM20 (full-mold)
Typical Switching Characteristics (common emitter)
VCC (V) -24 RL () 4 IC (A) -6 VBB1 (V) -10 VBB2 (V) 5 IB1 (mA) -120 IB2 t on t stg tf (mA) (µs) (µs) (µs) 120 0.4typ 0.4typ 0.2typ
a) Type No. b) Lot No. (Unit : mm)
s IC - VCE Characteristics (typ.)
s VCE (sat) - IB Characteristics (typ.)
s IC - VBE Temperature Characteristics (typ.)
mA -150
-100mA
IC (A)
-60mA
VCE (sat) (V)
-40mA
-20mA
-10mA
VCE (V)
IB (mA)
VBE (V)
s hFE - IC Characteristics (typ.)
s hFE - IC Temperature Characteristics (typ.)
Characteristics
IC (A)
t (ms)
s f T - IE Characteristics (typ.)
s Safe Operating Area (single pulse)
s PC - Ta Derating
natural air cooling Silicone grease Aluminum heatsink Unit: mm
fT (MHz)
PC (W)
IC (A)
ith in fin
Without heatsink natural air cooling
ite at he
Without heatsink
IE (A)
VCE (V)
Power Transistor 2SC3851
Electrical Characteristics
External Dimensions FM20 (full-mold)
VCC (V) 12
VBB1 (V) 10
VBB2 (V) -5
IB1 (mA) 200
IB2 t on t stg tf (mA) (µs) (µs) (µs) -200 0.2typ 1typ 0.3typ
Typical Switching Characteristics (common emitter)
a) Type No. b) Lot No. (Unit : mm)
s IC - VCE Characteristics (typ.)
s VCE (sat) - IB Characteristics (typ.)
s IC - VBE Temperature Characteristics (typ.)
VCE (sat) (V)
IC (A)
VCE (A)
IB (mA)
VBE (V)
s hFE - IC Characteristics (typ.)
s hFE - IC Temperature Characteristics (typ.)
Characteristics
IC (A)
t (ms)
s f T - IE Characteristics (typ.)
s Safe Operating Area (single pulse)
s PC - Ta Derating
fT (MHz)
PC (W)
IC (A)
Without heatsink natural air cooling Without heatsink
IE (A)
VCE (V)
Power Transistor 2SC3852
Electrical Characteristics