1997  Not Available
Abstract: No abstract text available
Text: Systems LeadAcid Battery BackUp Systems Automotive and Heavy Equipment , LTC and LT are registered , on the inductor current waveform internal to the IC (with a slope SX ) as shown in Figure 5b. If the sum of the slopes 11 LT1680 U W U U APPLICATIO S I FOR ATIO T1 S1 + SX I2 S1 , . Inductor Current at DC > 50% and Slope Compensation Adjusted Signal S1 + SX is greater than S2, this , current waveform slope, or âSlope Compensation,â follows the relation: SX â¥ (S1)(2DC â 1) (1â

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LT1680
000pF
LTC1700
550kHz
LT1738
20kHz
250kHz
LTC3401/LTC3402
10Lead

1997  rsl2 24v
Abstract: 500w amp irf640 CVGX sanyo IRFZ44 mosfet switching circuit 500W forward converter MBR20100CT MBR0520 LT1680C LT1680 IRFZ44
Text: Systems LeadAcid Battery BackUp Systems Automotive and Heavy Equipment , LTC and LT are registered , artificial ramp on the inductor current waveform internal to the IC (with a slope SX ) as shown in Figure 5b. If the sum of the slopes 11 LT1680 U W U U APPLICATIO S I FOR ATIO T1 S1 + SX , Figure 5. Inductor Current at DC > 50% and Slope Compensation Adjusted Signal S1 + SX is greater than , additional current waveform slope, or "Slope Compensation," follows the relation: SX (S1)(2DC 1) (1

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LT1680
000pF
LTC1700
550kHz
LT1738
20kHz
250kHz
LTC3401/LTC3402
10Lead
rsl2 24v
500w amp irf640
CVGX sanyo
IRFZ44 mosfet switching circuit
500W forward converter
MBR20100CT
MBR0520
LT1680C
LT1680
IRFZ44

1997  MAGNETICS 77439A7
Abstract: transistor irf3205 IRF3205 application CTX0213400X2 irf3205 mosfet transistor IN5819 diode equivalent diode ZTX649 equivalent 77439A7 500W buck regulator lt1339 Synchronous dc buck converter
Text: Systems LeadAcid Battery Backup Systems Automotive and Heavy Equipment , LTC and LT are registered , by adding an artificial ramp on the inductor current waveform internal to the IC (with a slope SX ) as shown in Figure 9b. If the sum of the slopes S1 + SX is greater than S2, the condition for subharmonic oscillation no longer exists. I T1 S1 + SX I2 SYNC 2.5V (vh) 2V I1 0 S1 , current waveform slope, or "Slope Compensation," follows the relation: V SX IN 2DC  1 L

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LT1339
000pF
150kHz
LTC1435
LTC1438
LT1680
1339f
MAGNETICS 77439A7
transistor irf3205
IRF3205 application
CTX0213400X2
irf3205 mosfet transistor
IN5819 diode equivalent diode
ZTX649 equivalent
77439A7
500W buck regulator
lt1339 Synchronous dc buck converter

Not Available
Abstract: No abstract text available
Text: , Including inverting and negative topologies. ^ LTC and LT are registered trademarks of Linear , on the inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 4b. If the sum of the slopes S1 + Sx is greaterthan S2, the condition for subharmonic oscillation no longer , 1) M C ) For duty cycles less than 50% (DC = 0.5), Sx is negative and is not required. For duty cycles greaterthan 50%, Sx takes on values dependent on S1 and duty cycle. This leads to a minimum

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LT1339
150kHz
LTC1435
LTC1438
51fl4bfl
CA950357417
7C71C

1997  irf3205 mosfet transistor
Abstract: MAGNETICS 77439A7 lt1339 application note 500W buck converter ZTX649 equivalent lt1339 Synchronous dc buck converter CTX0213400X2 LT1339 diode d1n914 dc converter irf3205
Text: Systems LeadAcid Battery Backup Systems Automotive and Heavy Equipment , LTC and LT are registered , artificial ramp on the inductor current waveform internal to the IC (with a slope SX ) as shown in Figure 5b. If the sum of the slopes S1 + SX is greater than S2, the condition for subharmonic oscillation no , Compensation," follows the relation: V SX IN 2DC  1 L ( ) For duty cycles less than 50% (DC < 0.5), SX is negative and is not required. For duty cycles greater than 50%, SX takes on values

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LT1339
000pF
150kHz
LTC1435A
LTC1438
LT1680
sn1339
1339fas
irf3205 mosfet transistor
MAGNETICS 77439A7
lt1339 application note
500W buck converter
ZTX649 equivalent
lt1339 Synchronous dc buck converter
CTX0213400X2
LT1339
diode d1n914
dc converter irf3205

1997  irf3205 mosfet transistor
Abstract: No abstract text available
Text: Systems LeadAcid Battery Backup Systems Automotive and Heavy Equipment , LTC and LT are registered , (with a slope SX ) as shown in Figure 5b. If the sum of the slopes S1 + SX is greater than S2, the , current waveform slope, or âSlope Compensation,â follows the relation: ï£«V ï£¶ SX â¥ ï£¬ IN ï£· 2DC â 1 ï£ L ï£¸ ( ) For duty cycles less than 50% (DC < 0.5), SX is negative and is not required. For duty cycles greater than 50%, SX takes on values dependent on S1 and duty cycle. This leads

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LT1339
000pF
150kHz
LTC1435A
LTC1438
LT1680
sn1339
1339fas
irf3205 mosfet transistor

Not Available
Abstract: No abstract text available
Text: , LTC and LT are registered trademarks of Linear Technology Corporation. TVPicfli nppucOTion 12V to , adding an artificial ramp on the inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 5b. If the sum of the slopes S1 + Sx is greaterthan S2, the conditionsfor subharmonic , Compensationâ follows the relation: (S1)(2DC1) Slope Compensation Sx  Current mode switching , begins to Al (1 DC) For duty cycles less than 50% (DC < 0.5), Sx is negative and is not required

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00173t
LT1680
000pF
200kHz
LT1268
150kHz
LT1270A
60kHz
LT1339

1997  MAGNETICS 77439A7
Abstract: diode d1n914 irf3205 mosfet transistor irf3205 DRIVER d1n914 IN5819 schottky diode symbol IR30BQ060 500W buck regulator equivalent ztx649 efd20
Text: Systems LeadAcid Battery Backup Systems Automotive and Heavy Equipment , LTC and LT are registered , adding an artificial ramp on the inductor current waveform internal to the IC (with a slope SX ) as shown in Figure 5b. If the sum of the slopes S1 + SX is greater than S2, the condition for subharmonic , "Slope Compensation," follows the relation: V SX IN 2DC  1 L ( ) LT1339 U U W U APPLICATIONS INFORMATION T1 S1 + SX I2 I1 0 S1 S2 S1 S2 OSCILLATOR

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LT1339
000pF
150kHz
LTC1435A
LTC1438
LT1680
1339fa
MAGNETICS 77439A7
diode d1n914
irf3205 mosfet transistor
irf3205 DRIVER
d1n914
IN5819 schottky diode symbol
IR30BQ060
500W buck regulator
equivalent ztx649
efd20

500w FM power amplifier circuit diagram
Abstract: MT720 mt619 lt1339 Synchronous dc buck converter
Text: Automotive and Heavy Equipment ^ 7 ^ LTC and LT are registered trademarks of Linear Technology Corporation , inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 9b. If the sum of the slopes S1 + Sx is greater than S2, the condition for subharmonic oscillation no longer exists. Al T1 , current waveform slope, or "Slope Compensation," follows the relation: Sx > f ^ 2DC1 For duty cycles less than 50% (DC < 0.5), Sx is negative and is not required. For duty cycles greater than 50%, Sx

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LT1339
150kHz
500w FM power amplifier circuit diagram
MT720
mt619
lt1339 Synchronous dc buck converter

flyback equivalent
Abstract: rsl2 24v 24v active clamp forward converter lt1680
Text: BackUp Systems Automotive and Heavy Equipment LTC a n d L T a re re g is te re d tra d e m a rk s o l , artificial ramp on the inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 9b. If the sum of the slopes S1 + Sx is greater than S2, this condition for subharmonic oscillation no , <0.5), Sx is negative and is not required. For duty cycles greaterthan 50%, Sx takes on values , im, duty cycle and slope compensation ( Sx ) of: The LT1680 contains an internal slope compensation

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LT1680
000pF
LT1680
60kHz
500kHz,
flyback equivalent
rsl2 24v
24v active clamp forward converter

2009  mxt 2410 sx
Abstract: PTC MZ 5 pot 3296 BDXXX lm 7914 pot 3296 small thermodisc 4011 5106a lm 3751 thermodisc
Text: , ST10A, SX , SXT 91407 LF 705 Not RoHS compliant  See Gas Tube Protectors  2377 Part number , EOL End of Life (NonRoHS compliant models) Model 20 (std & LF) 06/10; 3266 LTC , 3296 LTC

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CD0402,
OD323,
CD214AF,
14AR,
214BF,
CD214BR,
214CF,
214CR,
CD214LTxxA/CA
CD214AB,
mxt 2410 sx
PTC MZ 5
pot 3296
BDXXX
lm 7914
pot 3296 small
thermodisc 4011
5106a
lm 3751
thermodisc

1997  rsl2 24v
Abstract: 500w amp irf640 CVGX sanyo diagram for a 12v 250w power amplifier LT1680 B1680 77314A7 500w power amplifier circuit diagram 77314 LT1270A equivalent
Text: , LTC and LT are registered trademarks of Linear Technology Corporation. U s TYPICAL , (with a slope SX ) as shown in Figure 9b. If the sum of the slopes S1 + SX is greater than S2, this condition for subharmonic oscillation no longer exists. I T1 S1 + SX I2 I1 0 S1 S2 S1 , slope, or "Slope Compensation," follows the relation: SX (S1)(2DC 1) (1 DC) For duty cycles less than 50% (DC < 0.5), SX is negative and is not required. For duty cycles greater than 50

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LT1680
000pF
LT1270A
60kHz
LT1339
LT1370
500kHz,
LT1371
rsl2 24v
500w amp irf640
CVGX sanyo
diagram for a 12v 250w power amplifier
LT1680
B1680
77314A7
500w power amplifier circuit diagram
77314
LT1270A equivalent

1991  hd64180
Abstract: LT1006 LT1027 LTC1292 LTC221 LTC222 TMS320C25
Text: DESCRIPTIO U FEATURES The LTC ®221 and LTC222 are micropower, quad CMOS analog , closed and the LTC222 is normally open as shown in the Logic Table. , LTC and LT are registered , for Alternate Source Consult LTC Marketing for parts specified with wider operating temperature , SX VO DX VO CL = 1000pF VGEN VO INX 3V LTC221 INX OV OFF ON ON , .300 Inch, Hermetic) (Reference LTC DWG # 05081110) CORNER LEADS OPTION (4 PLCS) .005 (0.127

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LTC221/LTC222
LTC222
LTC221
LTC201/LTC202/LTC203
DG201/DG202
LTC1380/LTC1393
LTC1390/LTC1391
2212fa
hd64180
LT1006
LT1027
LTC1292
TMS320C25

1991  74C14
Abstract: LT1049 cd4024 applications CD4024 AD215 74c14 cmos logic data 2N3906 2N3904 lt2012 LTC202
Text: FEATURES DESCRIPTIO The LTC ®201A, LTC202, and LTC203 are micropower, quad CMOS , . 65 Typ Signal Range . ±15V , LTC and LT are , 16 Package for Alternate Source Consult LTC Marketing for parts specified with wider operating temperature , _202_203 · AI01 Charge Injection Test Circuit RGEN VGEN SX DX INX VO VO CL = 1000pF , 16Lead CERDIP (Narrow .300 Inch, Hermetic) (Reference LTC DWG # 05081110) CORNER LEADS OPTION

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LTC201A/LTC202/LTC203
LTC202,
LTC203
LTC221/LTC222
LTC1380/LTC1393
SingleEnded/70
LTC1390/LTC1391
LT1675/LT16751
250MHz,
100MHz
74C14
LT1049
cd4024 applications
CD4024
AD215
74c14 cmos logic data
2N3906
2N3904
lt2012
LTC202


2003  buck converter vin 40v vout 20v 50khz
Abstract: transistor b120a dc/dc converter 5v /power+converter+dc/dc+5/OZ8293 LPO1704333 LT3433IFE LT3433EFE LT3433 B160A B120A 3433EFE
Text: lead thermally enhanced TSSOP package. , LTC and LT are registered trademarks of Linear Technology , SOLDERED TO SGND Consult LTC Marketing for parts specified with wider operating temperature ranges , signal is added to the sensed current with a slope ( SX ) that is sufficient to prevent current mode instability, or S1 + SX S2. This leads to the following relations: SX S2(2DC 1)/DC If the forward , requirements: LMIN = (VOUT + VF1 + VF2)(2DC 1)/(DC · SX ) The LT3433 maximizes available dynamic range using

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LT3433
200kHz
500mA
TSSOP20E
LTC3727/LTC37271
500kHz
QFN32,
SSOP28
LT3430/LT3431
200kHz/500kHz
buck converter vin 40v vout 20v 50khz
transistor b120a
dc/dc converter 5v /power+converter+dc/dc+5/OZ8293
LPO1704333
LT3433IFE
LT3433EFE
LT3433
B160A
B120A
3433EFE

2003  transistor b120a
Abstract: dc/dc converter 5v /power+converter+dc/dc+5/OZ8293 dc/dc converter 5v /power converter dc/dc 5/LC51
Text: lead thermally enhanced TSSOP package. , LTC and LT are registered trademarks of Linear Technology , °C/W, Î¸JC = 10Â°C/W EXPOSED PAD (PIN 17) MUST BE SOLDERED TO SGND Consult LTC Marketing for parts , to the sensed current with a slope ( SX ) that is sufficient to prevent current mode instability, or S1 + SX â¥ S2. This leads to the following relations: SX â¥ S2(2DC â 1)/DC If the forward , compensation requirements: LMIN = (VOUT + VF1 + VF2)(2DC â 1)/(DC â¢ SX ) The LT3433 maximizes available

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LT3433
200kHz
500mA
TSSOP20E
LTC3727/LTC37271
500kHz
QFN32,
SSOP28
LT3430/LT3431
200kHz/500kHz
transistor b120a
dc/dc converter 5v /power+converter+dc/dc+5/OZ8293
dc/dc converter 5v /power converter dc/dc 5/LC51

77439A7
Abstract: No abstract text available
Text: inverting and negative topologies. U , LTC and LT are registered trademarks of Linear Technology , adding an artificial ramp on the inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 9b. If the sum of the slopes S1 + Sx is greaterthan S2, the condition for subharmonic , relation: (2DC1) Sy > For duty cycles less than 50% (DC < 0.5), Sx is negative and is not required. For duty cycles greaterthan 50%, Sx takes on values dependent on S1 and duty cycle. This leads to a

OCR Scan

PDF

LT1339
000pF
150kHz
LTC1435
LTC1438
LT1680
77439A7

SMD403
Abstract: 77439a7 phantom power from 4.5v
Text: Equipment £ f , LTC and LT are registered trademarks of Linear Technology Corporation. TVPicni , current waveform internal to the IC (with a slope Sx ) as shown in Figure 5b. If the sum of the slopes S1 + Sx is greaterthan S2, the condition for subharmonic oscillation no longer exists. For a buck , Compensation Adjusted Signal For duty cycles less than 50% (DC < 0.5), Sx is negative and is not required. For duty cycles greater than 50%, Sx takes on values dependent on S1 and duty cycle. This leads to a

OCR Scan

PDF

000pF
150kHz
LT1339
1339fa
SMD403
77439a7
phantom power from 4.5v

MN15845
Abstract: panasonic mn15845 MN1510 MN1550 mn15342 MN1500 ZF 7D MN15823 zf transmission AAAM
Text: //.KD77/ ZF tro7?/ RAM f^/ii) X X wy (Â±&4 fy h) Y Yuyx? (T&4 ey n/rfx? yh ttjftiSiiiSEi^xi' SX , and modify E 33, mn ZF EâEAm+n STSX store SX 50 SXâX â fr EXSX exchange SX 40 XâSX LMXI â¢ â¢load and modify X 32, mn ZF XâXAm+n LXSXI â¢ â¢load X, SX immediate 75, mn Xâm , ROL rotate left 08 CF, ZF LTC >H A M ROR rotate right 09 CF, ZF urcn A HJ SLEA Â¿shift left byte

OCR Scan

PDF

0DDS773
MN1500
MN1500
MN1510
AMN1520
MN1530
MN1550
MN15845
panasonic mn15845
MN1510
mn15342
ZF 7D
MN15823
zf transmission
AAAM

2011  decode counter 7490
Abstract: ultrasonic transducer driver circuits Ultrasonic transmitter receiver transit time hp50827300 ultrasonic transducer polaroid Ultrasonic Electrostatic Transducer hp5082 7300 HP2804A hp508273 Ultrasonic Transducer driver
Text: transducer serves as both transmitter and receiver. L, LT, LTC , LTM, Linear Technology and the Linear logo , Circuitry Figure 5's detailed schematic closely follows Figure 3's concepts. An LTC ®6991 oscillator furnishes the 100Hz clock. LTC ®69931 monostable "A" provides a 10µs width to the Q1Q2 driver, which , SX 70 automatic focus cameras (every baby boomer had to have one). A = 5V/DIV A = 5V/DIV B , , written by Omar SanchezFelipe of LTC , appears below. //OLIVER.C: // // Hot temps from a jar of olives

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an131f
AN13115
AN13116
decode counter 7490
ultrasonic transducer driver circuits
Ultrasonic transmitter receiver transit time
hp50827300
ultrasonic transducer polaroid
Ultrasonic Electrostatic Transducer
hp5082 7300
HP2804A
hp508273
Ultrasonic Transducer driver

2005  13.8V, 40 Amp DC Regulated Linear Power Supply
Abstract: 24v to 5v buck LT3800 REG IC 48V IN 12V 10A OUT 500W buck regulator 500w power amplifier circuit diagram 24v active clamp forward converter 48v to 24v buck calculating rectifier circuits MTBF MGPWL00099 3800EFE
Text: overshoot errors. The LT3800 is available in a 16lead thermally enhanced TSSOP package. , LT, LTC and LTM , °C Consult LTC Marketing for parts specified with wider operating temperature ranges. Consult LTC Marketing , this false signal ( Sx ) must be sufficient such that the sensed rising slope exceeds the falling slope, or S1 + Sx S2. This leads to the following relations: Sx S2 (2DC 1)/DC where: S2 ~ VOUT/L , requirements: 2DC 1 LMIN = VOUT · DC · Sx The LT3800 maximizes available dynamic range using a slope

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LT3800
200kHz
16Lead
200kHz,
LTC3703
LTC37035
LTC37271
250kHz
550kHz
13.8V, 40 Amp DC Regulated Linear Power Supply
24v to 5v buck LT3800
REG IC 48V IN 12V 10A OUT
500W buck regulator
500w power amplifier circuit diagram
24v active clamp forward converter
48v to 24v buck
calculating rectifier circuits MTBF
MGPWL00099
3800EFE

2005  Not Available
Abstract: No abstract text available
Text: in a 16lead thermally enhanced TSSOP package. , LT, LTC and LTM are registered trademarks of Linear , °C Consult LTC Marketing for parts specified with wider operating temperature ranges. Consult LTC Marketing , rising slope. To prevent current mode instability, the slope of this false signal ( Sx ) must be sufficient such that the sensed rising slope exceeds the falling slope, or S1 + Sx S2. This leads to the following relations: Sx S2 (2DC 1)/DC where: S2 ~ VOUT/L Solving for L yields a relation for the minimum

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LT3800
200kHz
rever12V
TA04a
TA04b
300mA
16Lead
200kHz,

2011  24v to 5v buck LT3800
Abstract: schematic diagram 48V 500W Controller schematic diagram 48v dc regulator schematic diagram 12v in stepup to out 32v 2a REG IC 48V IN 12V 10A OUT ic
Text: , LTC , LTM, Linear Technology, Burst Mode and the Linear logo are registered trademarks and No RSENSE , Lead Plastic TSSOP 16Lead Plastic TSSOP TEMPERATURE RANGE 40°C to 125°C 40°C to 125°C Consult LTC Marketing for parts specified with wider operating temperature ranges. Consult LTC Marketing for information , ( Sx ) must be sufficient such that the sensed rising slope exceeds the falling slope, or S1 + Sx S2. This leads to the following relations: Sx S2 (2DC 1)/DC where: S2 ~ VOUT/L Solving for L yields a

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LT3800
200kHz
300mA
16Lead
200kHz,
250kHz
550kHz
550kHz,
24v to 5v buck LT3800
schematic diagram 48V 500W Controller
schematic diagram 48v dc regulator
schematic diagram 12v in stepup to out 32v 2a
REG IC 48V IN 12V 10A OUT ic

Not Available
Abstract: No abstract text available
Text: Control Systems Distributed Power Converters L, LT, LTC , LTM, Linear Technology, Burst Mode and the , °C Consult LTC Marketing for parts speciï¬ed with wider operating temperature ranges. Consult LTC Marketing , of this false signal ( Sx ) must be sufï¬cient such that the sensed rising slope exceeds the falling slope, or S1 + Sx â¥ S2. This leads to the following relations: Sx â¥ S2 (2DC â 1)/DC LMIN = , DC â¢ Sx The LT3800 maximizes available dynamic range using a slope compensation generator that

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LT3800
200kHz
16Lead
200kHz
LT3430/LT3431
200kHz,
LTC3703
LTC37035
LTC37271

Not Available
Abstract: No abstract text available
Text: Line ar T e chno lo g y C orporation. J LTC TVPicni nppucfÃ¬Tion 12V to 48V, 250W Boost 12V,n , adding an artificial ramp on the inductor current waveform internal to the IC (with a slope Sx ) as shown in Figure 9b. If the sum of the slopes S1 + Sx is greaterthan S2, this condition forsubharmonic , %, Sx takes on valuesdependentonSI and duty cycle. S1 issimply VN / L. This leads to a minimum inductance requirement for a given VN, duty cycle and slope compensation ( Sx ) of: (2DC 1) _ V 1

OCR Scan

PDF

LT1680
000pF
200kHz
LT1270A
60kHz
LT1339
LT1370
500kHz,
LT1371
