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Parts: 0-C D-L M-R S-Z
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Details, datasheet, quote on part number:VND810SP13TR
 
 
Part:VND810SP13TR
Category:Others => VIPower (Vertical Intelligent Power)
Description:Double Channel High Side Driver
Company:ST Microelectronics, Inc.
Datasheet:Download VND810SP13TR datasheet   File size : 270 kB
Request For quote:  Find where to buy VND810SP13TR
 



Datasheet text preview:
®
VND810SP
DOUBLE CHANNEL HIGH SIDE DRIVER
TYPE VND810SP
(*) Per each channel
RDS(on) 160 m (*)
IOUT 3.5 A (*)
VCC 36 V
CMOS COMPATIBLE INPUTS OPEN DRAIN STATUS OUTPUTS s ON STATE OPEN LOAD DETECTION s OFF STATE OPEN LOAD DETECTION s SHORTED LOAD PROTECTION s UNDERVOLTAGE AND OVERVOLTAGE SHUTDOWN s PROTECTION AGAINST LOSS OF GROUND s VERY LOW STAND-BY CURRENT s REVERSE BATTERY PROTECTION (**)
s s
10
1
PowerSO-10TM
ORDER CODES PACKAGE TUBE T&R PowerSO-10TM VND810SP VND810SP13TR
DESCRIPTION The VND810SP is a monolithic device made by using STMicroelectronics VIPower M0-3 Technology, intended for driving any kind of load with one side connected to ground. Active VCC pin voltage clamp protects the device against low energy spikes (see ISO7637 transient compatibility table). Active current limitation BLOCK DIAGRAM
combined with thermal shutdown and automatic restart protects the device against overload. The device detects open load condition both in on and off state. Output shorted to VCC is detected in the off state. Device automatically turns off in case of ground pin disconnection.
Vcc
Vcc CLAMP
OVERVOLTAGE UNDERVOLTAGE
GND INPUT1 STATUS1
C LAMP 1 OUTPUT1 DRIVER 1 CLAMP 2 CURRENT LIMITER 1 OVERTEMP. 1 LOGIC OPENLOAD ON 1 CURRENT LIMITER 2 DRIVER 2 OUTPUT2
INPUT2 OPENLOAD OFF 1 STATUS2 OPENLOAD OFF 2 OVERTEMP. 2 OPENLOAD ON 2
(**) See application schematic at page 8
July 2002
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VND810SP
ABSOLUTE MAXIMUM RATING
Symbol VCC - VCC - IGND IOUT - IOUT IIN Istat Parameter DC Supply Voltage Reverse DC Supply Voltage DC Reverse Ground Pin Current DC Output Current Reverse DC Output Current DC Input Current DC Status Current Electrostatic Discharge (Human Body Model: R=1.5K; C=100pF) - INPUT VESD - STATUS - OUTPUT - VCC Maximum Switching Energy (L=1.4mH; RL=0; Vbat=13.5V; Tjstart=150ºC; IL=5A) Power Dissipation TC=25°C Junction Operating Temperature Case Operating Temperature Storage Temperature Value 41 - 0.3 - 200 Internally Limited -6 +/- 10 +/- 10 4000 4000 5000 5000 24 52 Internally Limited - 40 to 150 - 55 to 150 Unit V V mA A A mA mA V V V V mJ W °C °C °C
EMAX Ptot Tj Tc Tstg
CONNECTION DIAGRAM (TOP VIEW)
GROUND INPUT 1 STATUS 1 STAT US 2 INPUT 2
6 7 8 9 10 11 V CC
5 4 3 2 1
OUT PUT 1 OUT PUT 1 N.C. OUT PUT 2 OUT PUT 2
CURRENT AND VOLTAGE CONVENTIONS
IS IIN1 INP UT 1 V IN 1 VSTAT1 ISTA T1 STATUS 1 IIN2 I N PU T 2 V IN2 ISTAT2 STATUS 2 V S TAT2 G ND OUTP UT 2 VOUT2 I GN D OUTP UT 1 IOUT2 VOUT1 I OU T1 VCC
V CC
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VND810SP
THERMAL DATA
Symbol Rthj-case Rthj-amb Parameter Thermal Resistance Junction-case Thermal Resistance Junction-ambient Value 2 .4 52.4 (*) Unit °C/W °C/W
(*) When mounted on a standard single-sided FR-4 board with 0.5cm2 of Cu (at least 35µm thick). Horizontal mounting and no artificial air flow.
ELECTRICAL CHARACTERISTICS (8VSymbol VCC (**) VUSD (**) VOV (**) R ON Parameter Operating Supply Voltage Undervoltage Shut-down Overvoltage Shut-down On State Resistance Test Conditions Min 5.5 3 36 Typ 13 4 Max 36 5.5 160 12 12 5 0 -75 320 40 25 7 50 0 5 3 Unit V V V m m µA µA mA µA µA µA µA
IOUT=1A; Tj=25°C IOUT=1A; VCC>8V Off State; VCC=13V; VIN=VOUT=0V Off State; VCC=13V; VIN=VOUT=0V; Tj=25°C On State; VCC=13V; VIN=5V; IOUT=0A VIN=VOUT=0V VIN=0V; VOUT=3.5V VIN=VOUT=0V; Vcc=13V; Tj =125°C VIN=VOUT=0V; Vcc=13V; Tj =25°C
IS (**)
Supply Current
IL(off1) IL(off2) IL(off3) IL(off4)
(**) Per device
Off State Output Current Off State Output Current Off State Output Current Off State Output Current
SWITCHING (VCC=13V)
Symbol td(on) td(off) dVOUT/ dt(on) dVOUT/ dt(off) Parameter Turn-on Delay Time Turn-off Delay Time Turn-on Voltage Slope Test Conditions RL=13 from VIN rising edge to VOUT=1.3V RL=13 from VIN falling edge to VOUT=11.7V RL=13 from VOUT=1.3V to VOUT=10.4V RL=13 from VOUT=11.7V to VOUT=1.3V Min Typ 30 30 See relative diagram See relative diagram Max Unit µs µs V/µs
Turn-off Voltage Slope
V/µs
LOGIC INPUT
Symbol VIL IIL V IH IIH Vhyst VICL Parameter Input Low Level Low Level Input Current Input High Level High Level Input Current Input Hysteresis Voltage Input Clamp Voltage Test Conditions VIN = 1.25V VIN = 3.25V IIN = 1mA IIN = -1mA 0.5 6 6.8 -0.7 Min 1 3.25 10 8 Typ Max 1.25 Unit V µA V µA V V V
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