TMS320C6211FN150，there are the best TMS320C6211FN150 suppiers all over the world here.These are the list and detailed contact method of TMS320C6211FN150 suppliers all over the world as follows.You can buy or get informations of TMS320C6211FN150 through email , message or tel.

suppliers of TMS320C6211FN150 and PDF data of TMS320C6211FN150

Part Numbert	Mfg	Packt	D/C	Descriptiont	Qty	Company/Contact
TMS320C6211FN150			3500		Texas Instruments	Jetli Electronic HK Limited Contact:Jetchan Tel:86-754-84445458 Fax:86-754-84445458 Email: jetli@jetlielec.com

TMS320C6211FN150 Datasheet

General Description The DM74ALS109A is a dual edge-triggered flip-flop. Each flip-flop has individual J, K, clock, clear and preset inputs, and also complementary Q and Q outputs. Information at input J or K is transferred to the Q output on the positive going edge of the clock pulse. Clock triggering occurs at a voltage level of the clock pulse and is not directly related to the transition time of the positive going pulse. When the clock input is at either the HIGH or LOW level, the J, K input signal has no effect. Asynchronous preset and clear inputs will set or clear Q output respectively upon the application of low level signal. The J-K design allows operation as a D flip-flop by tying the J and K inputs together.
TMS320C6211FN150 Price

Frequency (MHz)	0	10	20	30	40	50	60	70	80	90	100	110	120	130
Typical Icc (mA)	0 01	2 37	4 65	6 80	9 06	1 1 1	13 5	15 5	17 4	20 0	22 1	24 4	26 6	28 5

TMS320C6211FN150 on stock


								r

				j
T	J=	750(	j		j r 1 J	=25	or
	J	r		l I
	\|			\|
	\|
J	\|		J					Vc	S=	OV

Symbol	Parameter	Test ConditIons	Min	Typ	Max	Unit
ICEV	Collector Cutoff Current	VCE = VCEV VBE =- 1.5 V VCE = VCEV VBE =- 1.5 V Te =lOO oC			O.l 1	mA mA
IEBO	Emitter Cutoff Current	VEB =8V			2	mA
VCEO(sus)	Collector Emitter sustaining Voltage	lc = 0.2 A L = 25 mH for 2N6933 for 2N6934 for 2N6935	300 350 400			V V V
VEBO	Emitter-base Voltage	IF= 50 mA	8			V
VCE(sat)	Collector-emitter Saturation Voltage	lc =15 A IB =3A lc =15 A lB =3 A Tc =100 0C			1 2	V V
VBE(sat)t	Base-emitter Saturation Voltage	Ic =15 A lB =3A lc = 15 A lB =3 A Tc = 100 aC			1.5 1.5	V V
hFE	DC Current Gain	lc =15 A VCE =3 V	8		35
hfe	Small Signal Current Gain	lc=lA VCE=10V f=5MHz	2		6
Ccb	Collector-base Capacitance	VCB =10V f=l MHz	150		400	pF
td lr ts tf	Delay Time Rise Time Storage Time Fall time	RESISTIVE LOAD Vcc =300 V lc =15 A Rc =20 Q IBl =-IB2 =3 A VBB =-5 V tp =30 ps see fig. I			0.1 0.7 2.5 0.5	}IS LS IlS US
ts tf te	Storage Time Fall Time Crossover Time	INDUCTIVE LOAD vcc = 50 v lc =15 A Lc =100 LtH IBl =-lB2 =3 A RBB = 1.5Q Vclamp = VCEX Te = 100 0C see fig. 1			3.5 0.4 0.8	Lis Lis !1S
dic/dt	Turn-on Current Slope	vcc = 300 V IB = 4.5 A Rc = O tp =3 pts see fig. 2	75			VLLS
VCEX	Collector-emitter Sustaining Voltage	vcc = 50 v lc =15 A Lc = 100 bEH IBl = -IB2 = 3 A RBB = 1.5Q Vclamp = VCEX Te = 100 0C see fig. 3 for 2N6933 for 2N6934 for 2N6935	350 400 450			V V V

Suppliers Datasheet
		Exact Matc