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Details, datasheet, quote on part number:VH02HSP
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Datasheet text preview:
®
VN02HSP
HIGH SIDE SMART POWER SOLID STATE RELAY
T YPE V N02 HS P
s
V DSS 60 V
R D S( o n ) 0. 4
I OUT 6A
V CC 36 V
s s s s s
OUTPUT CURRENT (CONTINUOUS): 6A @ Tc=25oC 5V LOGIC LEVEL COMPATIBLE INPUT THERMAL SHUT-DOWN UNDER VOLTAGE SHUT-DOWN OPEN DRAIN DIAGNOSTIC OUTPUT VERY LOW STAND-BY POWER DISSIPATION
10
1
DESCRIPTION The VN02HSP is a monolithic devices made using STMicroelectronics VIPower Technology, intended for d riving resistive or inductive loads with one side grounde d. Built-in thermal shut-down protects the chip from over temperature and short circuit. The input control is 5V logic level compatible. The open drain diagnostic output indicates open circuit (no load) and over temperature status. BLOCK DIAGRAM
PowerSO-10TM
August 1998
1/8
VN02HSP
ABSOLUTE MAXIMUM RATING
S ymb o l V ( BR ) DSS I OUT IR IIN - V CC I ST AT V ESD Pto t Tj Ts tg P ar amet e r D r a in - S o ur c e B r e a k d o wn V o l t a g e O u t put Cu r r ent ( c on t . ) R e v e r s e O u t p u t C u rr e n t I n p ut C u r re n t R e v e r s e S u p pl y V ol t a g e S t at us Cu r r ent E l e c t r o s t a t i c D i s c h a r g e ( 1. 5 k , 100 pF ) P o w e r D is s ip a t i on a t T c 2 5 C J u n c t io n O p e r a t i n g T e m p e r a t u r e S t o r a g e T e m per a t u r e
o
V al u e 60 6 -6 ±1 0 -4 ±1 0 2000 29 - 40 t o 1 50 - 55 t o 1 50
Unit V A A mA V mA V W
o o
C C
CONNECTION DIAGRAMS
CURRENT AND VOLTAGE CONVENTIONS
2/8
VN02HSP
THERMAL DATA
R t h j - c a se R t h j- a mb T h e r m a l R e s i s t a n ce J u nc t i o n- c as e T h e rm a l R e s i s t an c e J u n c t io n - a m bient M ax M ax 4 . 35 50
o o
C/ W C/ W
ELECTRICAL CHARACTERISTICS (VCC = 9 to 36 V; -40 Tj 125 oC unless otherwise specified) POWER
S ymb o l VC C Ro n IS P a r a m et e r S u pply V olt ag e O n S t a t e R e si s t a n c e S u pply C ur r ent T est C o n d i t i o n s s e e not e 1 I OUT = 3 A I OUT = 3 A O f f St a t e O n S t at e Tj = 2 5 o C Tj 25 C
o
Mi n. 5
T yp .
M a x. 36 0. 8 0. 4 50 20
Un i t V µA mA
SWITCHING
S ymb o l td(on) tr td(of f) tf ( di/ dt ) o n (d i / dt ) o f f Vd e m a g P a r a m et e r T u r n- on D el ay T im e O f O u t put Cu r r ent Ri s e T im e O f O ut p ut C u r re n t T est C o n d i t i o n s I OUT = 3 A R es is t iv e Lo ad I n p ut R is e T im e < 0. 1 µ s T j = 2 5 o C I OUT = 3 A R es is t iv e Lo ad o I n p ut R is e T im e < 0. 1 µ s T j = 2 5 C Mi n. 5 5 5 2 0. 0 5 2 5 Tj 1 4 0 C 2 5 Tj 1 4 0 C L = 1 mH
o o
T yp . 10 15 15 6 0. 15 0.4 -4
M a x. 20 45 30 15 0. 5 2 2 4 -2
Un i t µs µs µs µs A /µs A /µs A /µs A /µs V
T u r n - o f f D el a y T im e O f I OUT = 3 A R es is t iv e Lo ad o O u t put Cu r r ent I n p ut R is e T im e < 0. 1 µ s T j = 2 5 C F a ll T im e O f O u t put C u r re n t T u r n - o n C ur r e n t S lo p e T u r n - o f f C ur r e n t S lo p e I n d uc t i v e L o a d C la m p V o lt age I OUT = 3 A R es is t iv e Lo ad o I n p ut R is e T im e < 0. 1 µ s T j = 2 5 C I OUT = 3 A I OUT = I OV I OUT = 3 A I OUT = I OV I OUT = 3 A
0. 1 -7
LOGIC INPUT
S ymb o l VI L VI H V I(hyst.) IIN VIC L P a r a m et e r I n p ut L o w L e v e l V o lt age I n p ut H i g h L e v e l V o lt age I n p ut H y s t e r e s i s V o lt age I n p ut C u r re n t I n p ut C l a m p V o l t a g e VI N = 5 V I I N = 10 m A I I N = - 10 m A 5. 5 2 0.5 250 6 - 0. 7 5 00 - 0. 3 T est C o n d i t i o n s Mi n. T yp . M a x. 0. 8 ( *) Un i t V V V µA V V
3/8
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