500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Search Stock

Shift+Click on the column header for multi-column sorting 
Part
Manufacturer
Supplier
Stock
Best Price
Price Each
Ordering
Part : VQ2311500000G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : €2.8035 Price Each : €3.5043
Part : VQ23115000J0G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : $3.3622 Price Each : $3.6482
Part : VQ2311510000G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : €2.9713 Price Each : €3.7142
Part : VQ23115100J0G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : $3.5689 Price Each : $3.8724
Part : VQ2331500000G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : €2.8035 Price Each : €3.5043
Part : VQ23315000J0G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : $3.3622 Price Each : $3.6482
Part : VQ2331510000G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : €2.9713 Price Each : €3.7142
Part : VQ23315100J0G Supplier : Amphenol Manufacturer : Avnet Stock : - Best Price : $3.5689 Price Each : $3.8724
Part : VQ23TB Supplier : CDI Torque Products Manufacturer : Component Distributors Stock : 1 Best Price : $40.00 Price Each : $40.00
Part : VQ23115000J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23115000J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23115100J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23115100J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23315000J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23315000J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23315100J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23315100J0G Supplier : Amphenol Manufacturer : Heilind Electronics Stock : - Best Price : - Price Each : -
Part : VQ23115000J0G Supplier : Amphenol Manufacturer : Interstate Connecting Components Stock : - Best Price : - Price Each : -
Part : VQ23115100J0G Supplier : Amphenol Manufacturer : Interstate Connecting Components Stock : - Best Price : - Price Each : -
Part : VQ23315000J0G Supplier : Amphenol Manufacturer : Interstate Connecting Components Stock : - Best Price : - Price Each : -
Part : VQ23315100J0G Supplier : Amphenol Manufacturer : Interstate Connecting Components Stock : - Best Price : - Price Each : -
Shipping cost not included. Currency conversions are estimated. 

vq 2.3 v6

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: ­ 2.5 (­ 2)1) ­ 1.5 2.5 (2)1) ­ A A Supply current Ground current IS IGND VI V6 Tj Tstg ­ 5 (­ 2)1) ­ 5.5 (­ 2)1) 5.5 (2)1) 5 (2)1) A A I1 or I9 VS ± 15 V; VQ < ­ , ­ 100 ­ ­ 0.25 100 1 nA uA 3; 14 3; 14 VQ pp VQ pp VQ pp RI ± 8.5 ±8 ­ , uV/K 2; 13 IIO ­ 0.4 ­ nA/K 3; 14 Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation SR ­ 2 (0.5) ­ V/us 8; 19 SR ­ 2 (0.5 Siemens
Original
Q67000-A8109 Q67000-A8334 P-DSO-20 IEP00550 2465G marking code V6 surface mount diode TCA2465A tca 300 TCA 150 t P-DSO-20-6 IED00573
Abstract: V V I1 or I9 VS ± 15 V; VQ < ­ VS IS I4 V2, V3, V7, V8 Tj Tstg ­ 50 150 150 , IGND VI V6 Input voltage Inhibit input Junction temperature Storage temperature range , V V V 4; 15 4; 15 4; 15 VQ pp VQ pp VQ pp RI ± ± 1 5 M 4; 15 , Temperature coefficient of IIO ­ 40 °C Tj + 85 °C Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation Noise voltage (DIN 45405, referred to input) VIO 50 uV/K Siemens
Original
P-DIP-16-2 TCA 150 diods TCA 2465 V6 91 SMD 2465 Q67000-A8110 2465/A
Abstract: 2)1) ­ 1.5 2.5 (2)1) ­ A A Supply current Ground current IS IGND VI V6 Tj Tstg ­ 5 (­ 2)1) ­ 5.5 (­ 2)1) 5.5 (2)1) 5 (2)1) A A I1 or I9 VS ± 15 V; VQ < ­ VS IS I4 , nA uA 3; 14 3; 14 VQ pp VQ pp VQ pp RI ± 8.5 ±8 ­ ±9 ± 8.5 ±8 ­ ­ ­ V V , 3; 14 Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation , 45405, referred to input) Vn ­ 3 ­ uV 1; 12 V6 OFF V6 ON 2 ­ ­ ­ ­ 0.8 Infineon Technologies
Original
GPI05 IEB00551 IEB00889 IEP00888 P-SIP-20 P-DSO-20-1 IED00574 IED00575 GPI05038 GPS05094
Abstract: § 2 V6 = 4.25V, V6 : 4.0MHz f 1.0Vp_p v5=iov, vB=aov 2.0 3.5 5.0 dB jQy 2 V6 = 4.25V , Vq : 500kHz, LO Vp_p v5:5-iov 20 lOgOj^MAX./l^MIN. ) 11.2 12.3 13.4 dB t: f * f 4à ¿Gyf 2 V6=4.25V, V5 = 10V , fflíjoaíífcí: 100 # ¿ L 10 90 O^ikEfg &Ã' 7.5 â'" Vp-p ^T^ÃiJ« m a s m. % m av22/5T 2 V6 = 3.25V, V41=4.1V Ta = â'" 20 r 65 °C j -2.5 0 2.5 mV/:c K te T * y m & Vr^/VQ 2 V6=4.25V, Vq :4.0MHZ, 1.0Vp_p v5=iov , ftë ) l7 2 V6 = 4.0V f Vq = 3.58 MHz CD Acsisfêfn^ 1.6 â'" â'" VP-P am s§ Siti! g TA7670P (1 -
OCR Scan
s3v24 v6425 0-12V 9A120 skkm TA7670 J/10T
Abstract: V5 V6 V7 V8 -V9. V10 VII V12 V13 V14 V15 V16 AM 1.1 1.1 1.6. 1.6 0.4 0.4 0 1,1 3.0 3.0 . a l.l 3.0 0 , 1 1 1 1 1 1 1 1 1 1 1 Rx=22kn, Ry=22kXl IL=10mA, V6=1.2V IVC0=100/iA ViN=60dB(i, V6~»GND ViN=60dB/J , output level of AM can be reduced. C5 Q OF OSC COIL Graph 1 Vq s C> I0SC " Q VOD - fn MODULATION FREQUENCY f m (k H z ) Fig.2 AM LOW CUT CIRCUIT Graph 2 Vq d - fm AUDIO LIN EA R 1C , > o » !S | RECOVERED OUTPUT VOLTAGE V0D (dB) - RECOVERED OUTPUT VOLTAGE Vq d (dB) RESPONSE (dB) 3 -
OCR Scan
TA7378P AM ift TA7370P TA7370 TA7378 TA7787AP/AF TA8110AP/AF TA8110AP DIP-16 MFP-16
Abstract: is derived from the supply voltage also the switching thresholds V6A , V6E , V6 max and V6 min for the supply voltage detector. If V6 > V6E then VREF is switched on and swiched off when V6 < V6A . In addition the logic is only enable for V6 min < V6 < V6 max. 7 Soft-Start: Input for soft-start , transistors. Pin 6 From the supply voltage V6 are derived a stable internal reference VREF and the switching threshold V6A , V6E , V6 max and V6 min for the supply voltage monitor. All reference values (VR , V2B Siemens
Original
TDA 4605-2 TDA 4718 A TDA4718 TDA4718A 6 PIN smps control ic 6 pin smps power control ic Q67000-A8078
Abstract: . UNIT 1 Vih Output Vi â'" 4.2 4.5 4.8 V 2 Vd Output V2 cf. OPEN 4.2 4.5 4.8 V 3 Vq Input v3 â'" 2.7 3.0 3.3 V 4 Comb adj V4 cf. OPEN 4.2 4.5 4.8 V 5 V1H Del v5 â'" 2.7 3.0 3.3 V 6 Y-| Output v6 â , '" dB 2) V-, out Clhc -30 â'" â'" 3) Vq out Q/dc -50 â'" â'" Comb SW Switching Voltage , 4.5V J I 7 >' s* 1 / 1 1 1 ^ ¿Vch+4Vc | 7 ¿Vd 4Vch ¿VTP3 V30 32 Vq Max. Gain (D , .p, 0.45Vp-p (2) Measure TP5 Output Level of Vg (Vi). (3) Get ®V6 (5mV) / 5mV, ©V6 (Q.14V) -V6 (0.1V -
OCR Scan
TA8748AN DTP24 SW-11 V20 OBO SDIP30-P-400-1 961001EBA2 01//F 10//F RB51-58
Abstract: Value Unit Applied Voltage , Min Typ Max Min Typ Max Carrier Feedthrough Vq = 60 mV(rms) sine wave and fc = 1.0 kHz offset adjusted to zero fc = 10 MHz Vq = 300 mVp-p square wave: offset adjusted to zero fc - 1.0 kHz offset not , to fully switch two of the upper transistors "on" and two transistors "off" (Vq = 0.5 Vdc). This in , calculated as the summation of the voltage-current products at each port, i.e. assuming V12 = V6,15 = l6 = h2 -
OCR Scan
AN531 MC1496 MC1596 MC1496D MC1496L MC1496P balanced modulator ic 1496 MC1596 frequency doubler circuit MC1596L MC1596 frequency doubler SO-14
Abstract: ; VQ < - V S ^GND - 5 ( - 2 ) 1> - 5 . 5 ( - 2)1 > 5.5 (2)1> 5 (2)1> A A Ve -V s , = 40 kHz Vq D D â'" â'" V V V 4; 15 4; 15 4; 15 â'" V Q pp â'" ±9 ± 8 , input (referred to - Vs) V6 for IC turned OFF V6 for IC turned ON Data Sheet o > V q pp , current, V6 = 5 V 2> ) L-input current, V6 = 0 V2 1> 2) 3) 4) ^6H h O n ly fo r P-SIP , T. = 25 °C, VCE = + Vs - VQ or VCE = - Vs - VQ I/o to t -T r 'C E Supply Current -
OCR Scan
067000-A8334
Abstract: V8 = H V16 = L AGC Voltage Min. AGC Max. AGC Vq Vq 0.0 0.1 2.8 0.5 4.0 V V , ratio h -h A /g 1.1 13 55 1.4 18 82 = 2.0 V, V15 4.2 V , to ground via R = 500 Q V1-2 , V 19_20 = 10 mVrms, no modulation V6 = 3 V, ^1-2.^19-20= OVrms , , no modulation V6 = 3 V, ^ 1-2 . ^ 19-2 0 = OVrms TDA 6050-5 SIEMENS AC Characteristics Ta = -
OCR Scan
12-MH Q67000-A5123 P-DIP-20
Abstract: Typ dBm Typ 1 o Control Voltage Vq (Low) 0 to - 0.2V @ 20 iiA Max Vq (High) -5 V @ 50 uA , V4 V5 V6 V7 V8 Insertion Loss from J1 To: 0 -5 -5 0 -5 0 -5 0 , V8 16 V1 10 V6 15 V3 11 V5 14 V4 12 V7 13 V2 Absolute -
OCR Scan
AS419M4-49 AH002R2-11 AK402D4-31 AS006M2-10 AK002D2-11 AN002M2-29
Abstract: 5 V1H Del v5 â'" 2.7 3.0 3.3 V 6 Y-| Output v6 â'" 2.3 3.0 3.5 V 7 C Output v7 â'" 3.5 3.8 4.1 V , Output Level of V6 (Vi). (3) Get ©V6 @V6 (Q.14V)(0.1V) /0.14V-0.1, @V6 (0.45V) - V6 (o.4) / 0.45V - 0.4 , (1) Vi Input ; f0 = 15kHz, Vj = 0.1Vp.pf 0.14Vp.p (2) Measure the output level V6 (Vj) of TP6. (3) Measure the V6(0.i4v)-6V (0.1V)/ 0.14V-0.1V NOTE No. CHARACTERISTICS TEST CONDITION (VCC = 9.0V, Ta = , E SW12 -Oâ'" -
OCR Scan
C869 SW11 TP30
Abstract: -2 .5 (-2 )1 ) - 1 .5 - 5 ( - 2 ) 1> -5 .5 (-2 )1 ) 2.5 (2)1 ) /1 or / 9 Ve > ± 15 V; Vq < - , ] < + 85 °C Temperature coefficient of / )0 - 40 °C < 7] < + 85 °C Slew rate of VQ for non-inverting operation Slew rate of VQ for inverting operation Noise voltage (DIN 45405, referred to input) Inhibit input (referred to - Vs) V6 for IC turned OFF V6 for IC turned ON ^VO vK ^CMR ^SVR a VIO TCA 2465 Limit , Current versus Collector-Emitter Voltage 7) = 25 °C, VC E = + Vs - VQ or VC E = - Vs - VQ Max -
OCR Scan
tca 220
Abstract: "¢ -3 S uperS O T v-8 S uperS O T v-6 SO-8 SOT-223 SOIC-16 SuperSOT -3 Absolute , Voltage VQ = 0 V, lD= -250 pA s a b v d /a t ss Breakdown Voltage Temp. Coefficient lD= -250 , SF Gate - Body Leakage, Forward VQ = 8 V,VD = 0 V s S ^G S SR Gate - Body Leakage, Reverse VQ = '8 V, VD = 0 V s S -100 nA , V -28 -1 -10 ^^GSfth/'^'j D r iD (O , Gate-Source Charge VQ ="4-5 V s Qd g Gate-Drain Charge 35 ns 6 8.5 nC 0.8 nC -
OCR Scan
FDN338P
Abstract: Peak. RÃ: Rnc = 1.1 £2@ VQ : 1.5 fì @ VQ, = -4.5 V -2.7 V. Very low level gate drive , ¡88 SuperSOT v-6 SuperSOT -8 SO-8 SOT-223 SOIC-16 Mark:304 SOT-23 Absolute Maximum Ratings Ta = 25 -
OCR Scan
FDV304P D 304 x FDV304 HIGH VOLTAGE DIODE 6kv MIL-STD-883D FDV30
Abstract: (Pin 1) vi 7.9 V (Pin 3) V3 /,- 7.2 V (Pin 6) V6 // â U: // 7.9 V (Pin G) V6 7.9 V , c hB THD/ f' C ' 'V c b c a a a b b b V6 3 c h A TH// c P-'.: " b c a a a b b a V 8 3chB w/ C , ./ a c c c c a a a a b b V 3 1 c c c c c a a a b b b V3 %R2 // c c a c c a a a b a b V6 < K , c c a c a ¡6 b va 3 chB H 3-3 c c c c c ft a / a" ±J>J i b /y VQ_ Switch 1 c h ChanReftvor 0 , c ."â " 1 a a a a a a V6 2 c h c /t/ c a a a a « b V 6 2 c h c a t a a a b a a V6 2 c h -
OCR Scan
LA7220M MFP24 2eha circue LA722 PH 2896 P 3045B-M241C
Abstract: Vq ±Vs +1 V V Peak output current S upp ly current Iq h ± 2 .5 5.5 ± 2 .5 , kHz) Vq pp pp Input resistance (f = 1 kHz) O pe n-loo p voltage gain ( f = 100 Hz) 0.25  , to â'"Vs) Vg fo r IC turned off V6 fo r IC turned on ^6 OFF ^6 O N T u rn-on time (D ON , e Vn pt, Q R¡ Figure 5 Open-Loop Voltage Gain I Vq C v0 = ] 2 0 X Log101 p r -
OCR Scan
TCA2365 A235L Q67000-A1876 Q67000-A8017 P-DIP-18-L-9 P-DIP-18L-9 T-79-23 GG35143
Abstract: '" Terminal = GND 6 V.FB v6 2.0 2.4 2.8 â'" 7 N.C. v7 â'" 0.0 â'" Terminal = GND 8 V.OUT v8 2.8 3.5 4.3 V , .12. Measure the amplitude v$6(00) at TP6 when the data of sub address (04) is (00). Measure the amplitude v$6 , center 06 07 08 09 voltage Vq (oo) when the data of sub address (05) is (00). 16 Vertical NF DC Variation VDC 00 20 00 00 â'¢ Measure the vertical NF center voltage Vq (of) when , Correction VTR 02 03 04 05 â'¢ Same as No.10. â'¢ Measure the vertical scan center voltage Vq (oo) at TP6 -
OCR Scan
TA8859CP TA8427K 2SC1815Y TA8859 toshiba ta8427k VTR-02 980910EBA2 640//S DIP16-P-300-2
Abstract: power loss are needed in a very small outline surface mount package. m A A SuperSOT v-6 , s s Drain-Source Breakdown Voltage VQ = 0 V, lD 250 pA s = a b v d sa t , s , Drain Current VD = 24 V, VG = 0 V s S ^ SF GS Gate - Body Leakage, Forward VQ = 20 V,VD = -
OCR Scan
FDN357N
Abstract: ^3 S up erSO T,v-6 S u p e rS O T 'â'˜-8 SO-8 SOT-223 SOIC-16 Absolute Maximum Ratings , CHARACTERISTICS bvd s s Drain-Source Breakdown Voltage VQ = 0 V, lD -250 pA s = a b v d sa t , s , SF GS Gate - Body Leakage, Forward VQ = 8 V, VD = 0 V s S 100 nA ^ SR GS Gate - , Gate-Drain Charge VD = -10V, lD= - 2 A, S VQ = "4-5 V s 15 ns 12 22 ns 26 ns 5 -
OCR Scan
FDN336P
Showing first 20 results.