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RHRG1512

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S E M I C O N D U C T O R

April 1995

RHRG15120CC

15A, 1200V Hyperfast Dual Diode

Features

•Hyperfast with Soft Recovery . . . . . . . . . . . . . . . < 65ns

•Operating Temperature . . . . . . . . . . . . . . . . . . . . +175oC

•Reverse Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . 1200V

•Avalanche Energy Rated

•Planar Construction

Applications

•Switching Power Supplies

•Power Switching Circuits

•General Purpose

Description

The RHRG15120CC (TA49098) are hyperfast dual diodes with soft recovery characteristics (tRR < 65ns). They have half the recovery time of ultrafast diodes and are silicon nitride passivated ion-implanted epitaxial planar construction.

These devices are intended for use as freewheeling/clamping diodes and rectiﬁers in a variety of switching power supplies and other power switching applications. Their low stored charge and hyperfast soft recovery minimize ringing and electrical noise in many power switching circuits reducing power loss in the switching transistors.

PACKAGING AVAILABILITY

PART NUMBER	PACKAGE	BRAND

RHRG15120CC	TO-247	RHR15120C

NOTE: When ordering, use the entire part number.

Package

JEDEC STYLE TO-247

ANODE 2

CATHODE

ANODE 1

(BOTTOM SIDE

METAL)

Symbol

Absolute Maximum Ratings (Per Leg) TC = +25oC, Unless Otherwise Speciﬁed
				RHRG15120CC	UNITS
Peak Repetitive Reverse Voltage . . . . . . . . . . . . . . . . . . . . . . . . . .	. . VRRM			1200	V
Working Peak Reverse Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . VRWM			1200	V
DC Blocking Voltage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . .	VR		1200	V
Average Rectiﬁed Forward Current . . . . . . . . . . . . . . . . . . . . . . . .	. . .IF(AV)			15	A
(TC = 130oC)
Repetitive Peak Surge Current. . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . IFSM			30	A
(Square Wave, 20kHz)
Nonrepetitive Peak Surge Current . . . . . . . . . . . . . . . . . . . . . . . . .	. . . IFSM			200	A
(Halfwave, 1 Phase, 60Hz)
Maximum Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . .	PD		100	W
Avalanche Energy (L = 40mH) . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . EAVL			20	mj
Operating and Storage Temperature . . . . . . . . . . . . . . . . . . . . . . .	T	, T	J	-65 to +175	oC
	STG		J

Copyright © Harris Corporation 1995	File Number 3686.1
	8-23

Speciﬁcations RHRG15120CC

Electrical Speciﬁcations (Per Leg) TC = +25oC, Unless Otherwise Speciﬁed

RHRG15120CC LIMITS

SYMBOL

TEST CONDITION

MIN

TYP

MAX

UNITS

= 15A, T

= +25oC

3.2

= 15A, TC = +150oC

2.6

= 1200V, T

= +25oC

100

μA

VR = 1200V, TC = +150oC

500

μA

tRR

IF = 1A, dIF/dt = 100A/μs

IF = 15A, dIF/dt = 100A/μs

QRR

IF = 15A, dIF/dt = 100A/μs

150

VR = 10V, IF = 0A

1.5

oC/W

θJC

DEFINITIONS

VF = Instantaneous forward voltage (pw = 300μs, D = 2%).

IR = Instantaneous reverse current.

tRR = Reverse recovery time (See Figure 2), summation of tA + tB. tA = Time to reach peak reverse current (See Figure 2).

tB = Time from peak IRM to projected zero crossing of IRM based on a straight line from peak IRM through 25% of IRM (See Figure 2).

RθJC = Thermal resistance junction to case.

EAVL = Controlled avalanche energy. (See Figures 10 and 11). pw = pulse width.

D = duty cycle.

V1 AMPLITUDE CONTROLS IF			+V3
V2 AMPLITUDE CONTROLS dIF/dt			t1 ³ 5tA(MAX)
L1 = SELF INDUCTANCE OF	R1	Q2	t1 ³ 5tA(MAX)
L1 = SELF INDUCTANCE OF		Q2	t2 > tRR
R4 + LLOOP			t2 > tRR
R4 + LLOOP	Q1		t3 > 0
+V1	Q1		L1 £ tA(MIN)
+V1			L1 £ tA(MIN)
0			R4	10	dIF		tRR
0			LLOOP	IF	dIF		tRR
t2			LLOOP	IF	dt	tA	tB
	R2					tA	tB
t1	R2		DUT	0
t1			DUT	0
			Q4
t3							0.25 IRM
t3							IRM
	C1		R4				IRM
0	C1		R4
0	Q3
	Q3
-V2	R3		-V4				VR
							VR
						VRM

FIGURE 1. tRR TEST CIRCUIT

FIGURE 2. tRR WAVEFORMS AND DEFINITIONS

8-24

						RHRG15120CC
Typical Performance Curves
	100								1000				+175oC
													+175oC
FORWARD CURRENT (A)								REVERSE CURRENT (μA)	100
	10	+175oC		+100oC	+25oC				10				+100oC
	10
									1
									0.1				+25oC
F,								,
F,								R
I	1							I
	1
	0.5	1		2	3	4	5		0.01	200		400	600	800	1000	1200
	0	1		2	3	4	5		0	200		400	600	800	1000	1200
		VF, FORWARD VOLTAGE (V)									VR, REVERSE VOLTAGE (V)
FIGURE 3. TYPICAL FORWARD CURRENT vs FORWARD								FIGURE 4. TYPICAL REVERSE CURRENT vs REVERSE
		VOLTAGE DROP								VOLTAGE
	75					TC = +25oC			150						TC = +100oC
	75								150
	60								125
(ns)	60							(ns)
(ns)				tRR				(ns)	100
TIMES				tRR				TIMES	100				tRR
	45												tRR
									75
t, RECOVERY								t, RECOVERY	75
	30			tA									tA
	30								50				tA
				tB					50
				tB
	15								25				tB
									25
	0	1			5	10	15		0	1				5	10	15
	0.5	1			5	10	15		0.5	1				5	10	15
		IF , FORWARD CURRENT (A)								IF , FORWARD CURRENT (A)
FIGURE 5. TYPICAL tRR, tA AND tB CURVES vs FORWARD								FIGURE 6. TYPICAL tRR, tA AND tB CURVES vs FORWARD
		CURRENT AT +25oC								CURRENT AT +100oC
	200					TC = +175oC			15
	200							(A)	15
								(A)
								AVERAGE FORWARD CURRENT						DC
t, RECOVERY TIMES (ns)	150								12
	150												SQ. WAVE
													SQ. WAVE
				tRR					9
									9
	100
				tA					6
				tA
	50			tB					3
									3

								,
	0					10		F(AV)	0
	0.5	1			5		15	I	0	115			130		160	175
	0.5	1			5		15		100					145
									100					145
		I	, FORWARD CURRENT (A)							T	C	, CASE TEMPERATURE (oC)
		F									C
FIGURE 7. TYPICAL tRR, tA AND tB CURVES vs FORWARD								FIGURE 8. CURRENT DERATING CURVE FOR ALL TYPES
		CURRENT AT +175oC
							8-25

			RHRG15120CC
Typical Performance Curves (Continued)
		175
	(pF)	150
	CAPACITANCE	125
		100
		75
	, JUNCTION	75
		50
		25
	J
	C
	C
		0
		0	50		100	150	200
			VR , REVERSE VOLTAGE (V)
	FIGURE 9. TYPICAL JUNCTION CAPACITANCE vs REVERSE VOLTAGE
Test Circuit and Waveforms
IMAX = 1A
L = 40mH
R < 0.1Ω
EAVL = 1/2LI2 [VAVL/(VAVL - VDD)]			R
Q1 and Q2 ARE 1000V MOSFETS
	Q1		L
				+
130Ω		1MΩ					VAVL
			DUT				VAVL
			DUT	VDD
				VDD
12V	Q2
							IL
			CURRENT	-	I	V
130Ω			SENSE
130Ω
12V						t0	t1	t2	t
12V
FIGURE 10. AVALANCHE ENERGY TEST CIRCUIT					FIGURE 11. AVALANCHE CURRENT AND VOLTAGE
						WAVEFORMS
					8-26

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