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STUGLA20.000 Datasheet

Input data (control byte) and output data are multiplexed on a three-state parallel interface. This parallel l/0 can easily be interfaced with a pP. _CS, WR, and RD control the write and read operations. CS is the standard chip- select signal, which enables a pP to address the MAX199 as an l/0 port. When high, it disables the WR and RD
STUGLA20.000 Price

In its operating mode, the DS1721 functions as a thermostat with programmable hysteresis, as shown in Figure 2. The thermostat output updates as soon as a temperature conversion is complete. When the DS1721's temperature meets or exceeds the value stored in the high temperature trip register (TH), the output becomes active, and will stay active until the temperature is equal to or below the temperature stored in the low temperature trigger register (TL). In this way, any amount of hysteresis may be obtained.
STUGLA20.000 on stock

S2303D	3 3	113 6	10	500	1 0	100	1 0	454
S2303G	3 6	104 2	9 0	500	1 0	75	1 0	416
S2303J	3 9	96 1	7 5	500	1 0	25	1 0	384
S2304D	4 3	87 2	6 0	500	1 0	5 0	1 0	348
S2304H	4 7	79 8	5 0	500	1 0	5 0	1 5	319
S2305B	5 1	73 5	4 0	350	1 0	5 0	2 0	294
S2305G	5 6	66 9	2 0	250	1 0	5 0	3 0	267
S2306C	6 2	60 5	2 0	200	1 0	5 0	4 0	241
S23061	6 8	55 1	2 5	200	1 0	50	5 2	220
S2307F	7 5	50 0	3 0	400	0 5	50	6 0	200
S2308C	8 2	45 7	3 5	400	0 5	50	6 5	182
S2309B	9 1	41 2	4 0	500	0 5	50	7 0	164
S23010	10	37 5	4 5	500	0 25	50	8 0	150
S23011	11	34 1	5 5	550	0 25	50	8 4	136
S23012	12	31 2	6 5	550	0 25	1 0	9 1	125
S23013	13	28 8	7 0	550	0 25	1 0	9 9	115
S23015	15	25 0	9 0	600	0 25	1 0	11 4	100
S23016	16	23 4	10	600	0 25	1 0	12 2	93
S23018	18	20 8	12	650	0 25	1 0	13 7	83
S23020	20	18 7	14	650	0 25	1 0	15 2	75
S23022	22	17 0	17 5	650	0 25	1 0	16 7	68
S23024	24	15 6	19	700	0 25	1 0	18 2	62
S23027	27	13 9	23	700	0 25	1 0	20 6	55
S23030	30	12 5	26	750	0 25	1 0	22 8	50
S23033	33	11 4	33	800	0 25	1 0	25 1	45
S23036	36	10 4	38	850	0 25	1 0	27 4	41
S23039	39	9 6	45	900	0 25	1 0	29 7	38
S23043	43	8 7	53	950	0 25	1 0	32 7	34
S23047	47	8 0	67	1000	0 25	1 0	35 8	31
S23051	51	7 3	70	1100	0 25	1 0	38 8	29
S23056	56	6 7	86	1300	0 25	1 0	42 6	26
S23062	62	6 0	100	1500	0 25	1 0	47 1	24
S23068	68	5 5	120	1700	0 25	1 0	51 7	22
S23075	75	5 0	140	2000	0 25	1 0	56 0	20
S23082	82	4 6	160	2500	0 25	1 0	62 2	18
S23091	91	4 1	200	3000	0 25	1 0	69 2	16
S230BO	100	3 7	250	3100	0 25	1 0	76 0	15
S23081	110	3 4	300	4000	0 25	1 0	83 6	13
S23082	120	3 1	380	4500	0 25	1 0	91 2	12
S23083	130	2 9	450	5000	0 25	1 0	98 8	11
S23085	150	2 5	600	6000	0 25	1 0	114 0	10
S23086	160	2 3	700	6500	0 25	1 0	121 6	9 0
S23088	180	2 1	900	7000	0 25	1 0	136 8	8 0
S230DO	200	1 9	1200	8000	0 25	1 0	152 0	7 0

Item		Symbol	Condition	mln	typ	max	Unit
Collector cutoff current		lCB0	VCB = - 200V, IE =0			-50	/,A
Emitter cutoff current		lEB0	VEB= -4V,lc=0			-50	pA
CoUector-	2SB1233			--150			V
emitter voltage	2SB1233A	VCEO	lc= -5mA,IB=O	-180			V
Emitter-base voltage		VEBO	IE = - 0.5mA, IC =0	-6			v
		hFEl*	VCE= -10V,IC= -lOOmA	60		240
DC current-gain		hFE2	VCE = -10V, lC = - 300mA	50
Base-emitter voltage		VBE	VCE= -10V,IC= -300mA			-1	V
Collector-emitter saturation voltage		VCE (sat)	lc = -500mA, lB = - 50mA			-1	v
Transition frequency		fT	VCE= -10V,IC= -lOOmA,f=lMHz		20		MHz
CoUector output capaotance		Cob	VCB = - 10V, IE = 0, f= 1MHz		35		pF

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