Sharp S101S15V, S101S16V, S201S15V Datasheet

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S101S15V/S101S16V/S201S15V/S201S16V

S101S15V/S101S16V

S201S15V/S201S16V

SIP Type SSR with Built-in Snubber Circuit

■Features

1.High radiation resin mold package IT : MAX. 3A rms

2.Isolation voltage between input and output Viso : 3 000 Vrms

3.Built-in zero-cross circuit (S101S16V/ S201S16V)

4.Built-in snubber circuit

5.Recognized by UL, file No. E94758 Approved by CSA, file No. LR63705

■Applications

1.Air conditioners

2.OA equipment

■ Model Line-ups

			For 100V lines		For 200V lines
No built-in			S101S15V		S201S15V
zero-cross circuit
Built-in zero-cross			S101S16V		S201S16V
circuit
■ Absolute Maximum Ratings					(Ta = 25˚C )

		Parameter		Symbol	Ratings			Unit
					100V line		200V line

Input		Forward current		IF	50			mA
		Reverse current		V R		6		V

		RMS ON-state current		IT	3 ( Tc<=100˚C)			A rms
	*1 Peak one cycle surge			I surge	30			A
		current
Output		Repetitive peak OFF-		V DRM	400		600	V
		state voltage
		Critical rate of rise of		dIT /dt	40			A/μ s
		ON-state current
		Operating frequency		f	45 to 65			H Z
		Operating temperature		T opr	- 20 to + 80			˚C
		Storage temperature		T stg	- 30 to + 100			˚C

*2		Isolation voltage		V iso	3.0			kV rms
	*3 Soldering temperature			T sol	260			˚C

■ Outline Dimensions													(Unit : mm )
						18.5 ± 0.2			Common to Pin No.1
						18.5 ± 0.2
						16.4	± 0.3			0.2			5.5	±	0.2
Common to Pin No.1						16.4				±			5.5
Common to Pin No.1						φ 3.2 ± 0.2				3.2
A Model No,		B									0.3
S101S15V											±
S101S15V	3A125VAC										5.0
S101S16V											0.2
S201S15V	3A265VAC					A					0.2
S201S15V											±		)
S201S16V
S201S16V
											19.6		36.0
						B					19.6		36.0
													(
							+	-
4 - 1.1 ± 0.2							+	-
4 - 1.1 ± 0.2										MAX.	MIN.
4 - 1.25 ± 0.3										MAX.	MIN.
4 - 0.8 ± 0.2					1	2	3		4	4.2	11.2
					1	2	3		4
					(5.08) (7.62)				(2.54)				0.6± 0.1		(1.4)
										May not be externally
Internal connection diagram										connected
Internal connection diagram
S101S15V/S201S15V									S101S16V/S201S16V
						Zero-cross
						circuit
	1	2		3	4					1	2		3 4
1	Output			(Triac T2 )					1	Output			(Triac T2 )
2	Output			(Triac T1 )					2	Output			(Triac T1 )
3	Input		( + )						3	Input		( + )
4	Input		( - )						4	Input		( - )

*1 60H Z sine wave, Tj = 25˚C

*2 AC 60Hz for 1 minute, 40 to 60% RH Isolation voltage measuring method:

( 1) Dielectric withstand tester, with zero-cross circuit shall be used. ( 2) The waveform of applied voltage shall be sine wave.

( 3) It shall be applied voltage between input and output. ( Input and output shall be short-circuited respectively)

*3 For 10 seconds

“ In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device”.

Sharp S101S15V, S101S16V, S201S15V Datasheet

S101S15V/S101S16V/S201S15V/S201S16V

■ Electrical Characteristics							(Ta = 25˚C )

	Parameter		Symbol	Condition	MIN.	TYP.	MAX.	Unit
Input	Forward voltage		V F	IF = 20mA	-	1.2	1.4	V
Input	Reverse current		IR	V R = 3V	-	-	10-4	A
	Reverse current		IR	V R = 3V	-	-	10-4	A
	ON-state voltage		V T	Resistance load, I F = 20mA,	-	-	1.5	V rms
	ON-state voltage		V T	IT = 1.5A rms	-	-	1.5	V rms
				IT = 1.5A rms
	Minimum oper-	S101S15V/16V	I OP	V OUT = 120V rms	-	-	50	mA rms
	ating current	S201S15V/16V	I OP	V OUT = 240V rms	-	-	50	mA rms
	ating current	S201S15V/16V		V OUT = 240V rms
Output	Open circuit	S101S15V/16V	I leak	V OUT = 120V rms	-	-	5	mA rms
	leak current	S201S15V/16V	I leak	V OUT = 240V rms	-	-	10	mA rms
	leak current	S201S15V/16V		V OUT = 240V rms	-	-	10
	Critical rate of rise of OFF-state voltage		dV/dt	V D = 2/3V DRM	30	-	-	V/μ s
	Commutation critical rate of rise		(dV/dt)c	T j = 125˚C, VD= 400V,	4	-	-	V/μ s
	of OFF-state voltage		(dV/dt)c	dI T/d t = -1.5A/ms	4	-	-	V/μ s
	of OFF-state voltage			dI T/d t = -1.5A/ms
	Minimum trig-	S101S15V/S201S15V	I FT	V D = 12V, R L = 30 Ω	-	-	15	mA
	ger current	S101S16V/S201S16V	I FT	V D = 6V, R L = 30 Ω	-	-	15	mA
	ger current	S101S16V/S201S16V		V D = 6V, R L = 30 Ω
	Isolation resistance		R ISO	DC500V, R H = 40 to 60%	1010	-	-	Ω

Transfer	Zero-cross	S101S16V	V OX	IF = 15mA	-	-	35	V
Transfer	voltage	S201S16V			-	-	35
charact-
charact-
eristics	Turn-on time	S101S15V/S201S15V	ton	AC50H Z	-	-	1	ms
	Turn-on time	S101S16V/S201S16V	ton	AC50H Z	-	-	10	ms
		S101S16V/S201S16V			-	-	10
	Turn-off time		toff	AC50H Z	-	-	10	ms
	Thermal resistance Between junction and case		R th (j-c)	-	-	6	-	˚C/W
	Thermal resistance Between junction and ambient		R th (j-a)	-	-	45	-	˚C/W

Fig. 1 RMS ON-state Current vs.

Ambient Temperature

		(1 )		With heat sink	( Al 100 x 100 x t 2mm)
	5	(2 )		With heat sink	( Al 50 x 50 x t 2mm)
	5	Note )	With the Al heat sink set up vertically,					Al plate
			install it as shown in the figure				5mm
			Torque : 4kg•cm					SSR
)			Apply thermal conductive silicone grease					SSR
rms	4		Apply thermal conductive silicone grease
rms	4		on the heat sink mounting plate.forcibly
A			cooling shall not be carried out.
(			cooling shall not be carried out.
T
I	3
state current	3					(2)	(1)
						(2)	(1)
	2
ON-		Without
RMS		Without
	1	heat sink
	1
	0
	- 20		0	25	50	75 80	100	125
				Ambient temperature T a			(˚C)

Fig. 2 RMS ON-state Current vs. Case Temperature

	5
)	4
rms	4
rms
A
(
T
I	3
state current	3
state current	2
RMS ON-	1
	0							120 125 130
	- 20	60	70	80	90	100	110	120 125 130
			Case temperature T c (˚C)

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