QM10-14PL-PR，there are the best QM10-14PL-PR suppiers all over the world here.These are the list and detailed contact method of QM10-14PL-PR suppliers all over the world as follows.You can buy or get informations of QM10-14PL-PR through email , message or tel.

suppliers of QM10-14PL-PR and PDF data of QM10-14PL-PR

Part Numbert

Mfg

Packt

D/C

Descriptiont

Qty

Company/Contact

QM10-14PL-PR Datasheet

The switching safe operating area (SOAl of Figure 8 is the boundary that the !oad line may traverse without incurring damageto the MOSFET. Thefundamentallimits are the peak current, IDM and the breakdown voltage, V(BR)DSS The switching SOA shown in Figure 8 is appli- cable for both turn-on and turn-off of the devices for switching times less than one microsecond.
QM10-14PL-PR Price

The XE0017 has been designed to meet all FCC Part 68 requirements for hazardous voltage, surge protection and leakage current. Ifthe system developed transmits data, or DTMF tones on the telephone line, the user must certify that the signals transmitted meet basic FCC requirements for maximum transmission levels, out ofband energy and billing delay. Full details may be obtained from the FCC under Part 68 0f the FCC Rules and Regulations, or in Title 47 0f the Code of Federal Regulations, however the basic requirements are as follows:
QM10-14PL-PR on stock

HOST Interface........... Voice Message Recording Incoming and Outgoing Messages Digital Voice-Activated Recording (VOX).............. Automatic Gain Control............ Message Playback..... Offset and FLEXISPEECHTM .... Message Deletion...... Volume Control........... Tone Generation......... DTMF Detection........ Call Progress Tone (CPT) Detection........ Caller Identification (CID and CWCID) ................... Caller Alert Signal (CAS) Detection......... Speed Dial Telephone Number Storage................... Non-Erasable Storage................ General Purpose Storage........... Self Test and Initialization ........ Voice Prompt Generation .......... Near End Echo Cancellation...................... Full Duplex Digital SpeakerPhone ............

				LIMITS
SYMBOL	PARAMETER		TEST CONDITIONS	40YC to +85YC			40YC to +125IC		UNIT
SYMBOL	PARAMETER		TEST CONDITIONS	MIN	TYPi	MAX	MIN	MAX	UNIT
			Vcc= 1.2 V	0 9			0 9		V
	HIGH level Input		Vcc= 2.0V	1 4			1 4
VIH	voltage		Vcc = 2.7 t0 3.6 V	2 0			2 0
VIH	voltage		Vcc = 4.5 t0 5.5 V	0.7Vcc			0.7Vcc
			Vcc= 1.2 V			O3		0.3	V
	LOW levellnput		Vcc= 2.0V			O6		0.6
VIL	voltage		Vcc = 2.7 t0 3.6 V			O8		0.8
VIL	voltage		Vcc= 4.5 t0 5.5			0.3Vcc		0.3Vcc
			Vcc = 1.2 V; Vi = VIH or VIL; -10 = 100D:A		1.2				V
			Vcc = 2.0 V; Vi = VIH or VIL; -10 = 100D:A	1 8	2.0		1 8
VOH	HIGH leve voltage; a	output outputs	Vcc = 2.7 V; VI = VIH or VIL; -10 = 100D:A	2 5	2.7		2 5
			Vcc = 3.0 V; Vi = VIH or VIL; -10 = 100D:A	2 8	3.0		2 8
			Vcc = 4.5 V; Vi = VIH or VIL; -10 = 100D:A	4 3	4.5		4 3
	HIGH level output		Vcc = 3.0 V; Vi = VIH or VIL; -10 = 6mA	2 40	2.82		2 20		V
VOH	voltage; STANDARD outputs		Vcc = 4.5 V; Vi = VIH or VIL; -10 = 12mA	3 60	4.20		3 50		V
			Vcc = 1.2 V; Vi = VIH or VIL; 10 = 100ccA		O				V
			Vcc = 2.0 V; Vi = VIH or VIL; 10 = 100ccA		O	O2		0.2
VOL	LOW level output		Vcc = 2.7 V; VI = VIH or VIL; 10 = 100ccA		O	O2		0.2
	voltage; all outputs		Vcc = 3.0 V; Vi = VIH or VIL; 10 = 100ccA		O	O2		0.2
	voltage; all outputs		Vcc = 4.5 V; Vi = VIH or VIL; 10 = 100ccA		O	O2		0.2
	LOW level output		Vcc = 3.0 V; Vi = VIH or VIL; 10 = 6mA		O25	0.40		0 50	V
VOL	voltage; STANDARD outputs		Vcc = 4.5 V; Vi = VIH or VIL; 10 = 12mA		O35	0.55		0 65	V
Il	Input leakage current		Vcc = 5.5 V; VI = Vcc or GND			1.0		1.0	ccA
lcc	Quiescent supply current; MSI		Vcc = 5.5 V; VI = Vcc or GND; lo = 0			20 0		160	ccA
Clcc	Additional quiescent supply current per input		Vcc = 2.7 V t0 3.6 V; Vi = Vcc - 0.6 V			500		850	ccA

Suppliers Datasheet
		Exact Matc