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LT1303IS8-5#TRPBF

LT1303IS8-5#TRPBF

  • 厂商:

    LINEAR(凌力尔特)

  • 封装:

    SOIC8_150MIL

  • 描述:

    IC REG BOOST 5V 0.75A 8SOIC

  • 详情介绍
  • 数据手册
  • 价格&库存
LT1303IS8-5#TRPBF 数据手册
LT1303/LT1303-5 Micropower High Efficiency DC/DC Converters with Low-Battery Detector Adjustable and Fixed 5V U DESCRIPTION FEATURES ■ ■ ■ ■ ■ ■ ■ ■ The LT®1303/LT1303-5 are micropower step-up high efficiency DC/DC converters using Burst ModeTM operation. They are ideal for use in small, low-voltage batteryoperated systems. The LT1303-5 accepts an input voltage between 1.8V and 5V and converts it to a regulated 5V. The LT1303 is an adjustable version that can supply an output voltage up to 25V. Quiescent current is only 120µA from the battery and the shutdown pin further reduces current to 10µA. The low-battery detector provides an opencollector output that goes low when the input voltage drops below a preset level. The on-chip NPN power switch has a low 170mV saturation voltage at a switch current of 1A. The LT1303/LT1303-5 are available in 8-lead PDIP or SO packages, easing board space requirements. 5V at 200mA from a 2V Input Supply Voltage As Low As 1.8V Up to 88% Efficiency 120µA Quiescent Current Low-Battery Detector Low VCESAT Switch: 170mV at 1A Typ Uses Inexpensive Surface Mount Inductors 8-Lead PDIP or SO Package U APPLICATIONS ■ ■ ■ ■ ■ ■ EL Panel Drivers 2-Cell and 3-Cell to 5V Conversion Palmtop Computers Portable Instruments Bar-Code Scanners PDAs Wireless Systems For higher output current, please see the LT1305 or LT1302. , LTC and LT are registered trademarks of Linear Technology Corporation. Burst Mode is a trademark of Linear Technology Corporation. U ■ TYPICAL APPLICATION L1 22µH LBI + 2 CELLS VIN 100µF 412k 1% SHUTDOWN 90 SHDN GND VOUT, 5V 200mA SENSE LT1303-5 100k LBO PGND VIN = 4V 80 SW + LOW BATTERY GOES LOW AT VBAT = 2.2V 100µF VIN = 2V VIN = 2.5V EFFICIENCY (%) 316k 1% 5V Output Efficiency 1N5817 70 VIN = 3V 60 50 40 L1 = SUMDIA CD54-220 LT1303 TA02 30 Figure 1. 2-Cell to 5V DC/DC Converter with Low-Battery Detect 0.1 1 10 100 1000 LOAD CURRENT (mA) LT1303 TA01 1 LT1303/LT1303-5 W U U W W W VIN Voltage .............................................................. 10V SW1 Voltage ............................................................ 25V Sense Voltage (LT1303-5) ....................................... 20V FB Voltage (LT1303) ................................................ 10V Shutdown Voltage ................................................... 10V LBO Voltage ............................................................. 10V LBI Voltage .............................................................. 10V Maximum Power Dissipation ............................. 500mW Operating Temperature Range ..................... 0°C to 70°C Storage Temperature Range ................. – 65°C to 150°C Lead Temperature (Soldering, 10 sec).................. 300°C U ABSOLUTE MAXIMUM RATINGS PACKAGE/ORDER INFORMATION ORDER PART NUMBER TOP VIEW GND 1 8 PGND LBO 2 7 SW SHDN 3 6 VIN FB (SENSE)* 4 5 LBI LT1303CN8 LT1303CS8 LT1303CN8-5 LT1303CS8-5 N8 PACKAGE 8-LEAD PDIP S8 PACKAGE 8-LEAD PLASTIC SO S8 PART MARKING *FIXED VERSION 1303 13035 TJMAX = 100°C, θJA = 130°C/W (N8) TJMAX = 100°C, θJA = 150°C/W (S8) Consult factory for Industrial and Military grade parts. ELECTRICAL CHARACTERISTICS SYMBOL IQ PARAMETER Quiescent Current VIN Input Voltage Range TA = 25°C, VIN = 2.0V, unless otherwise noted. CONDITIONS VSHDN = 0.5V, VSEL = 5V, VSENSE = 5.5V VSHDN = 1.8V MIN ● ● ● DC tON VCESAT VSHDNH VSHDNL ISHDN Feedback Voltage Output Sense Voltage Comparator Hysteresis Output Hysteresis Feedback Pin Bias Current Oscillator Frequency Oscillator TC Maximum Duty Cycle Switch On Time Output Line Regulation Switch Saturation Voltage Switch Leakage Current Peak Switch Current LBI Trip Voltage LBI Input Bias Current LBO Output Low LBO Leakage Current Shutdown Pin High Shutdown Pin Low Shutdown Pin Bias Current LT1303 LT1303-5 LT1303 (Note 1) LT1303-5 (Note 1) LT1303, VFB = 1V Current Limit Not Asserted ● ● ● ● 120 ● Current Limit Not Asserted 1.8V < VIN < 6V ISW = 700mA VSW = 5V, Switch Off VIN = 2V VIN = 5V VLBI = 1V ILOAD = 100µA VLBI = 1.3V, VLBO = 5V ● ● ● 0.75 0.65 1.21 ● ● ● ● VSHDN = 5V VSHDN = 2V VSHDN = 0V 75 ● ● The ● denotes specifications which apply over the 0°C to 70°C operating temperature range. 2 ● 1.8 2.0 1.22 4.8 ● ● ● TYP 120 7 1.55 MAX 200 15 1.24 5.0 6 22 7 155 0.2 86 5.6 0.06 130 0.1 1.0 0.9 1.24 7 0.11 0.1 1.26 5.2 12.5 50 20 185 95 0.15 200 10 1.25 1.15 1.27 20 0.4 5 1.8 8.0 3.0 0.1 0.5 20 1 UNITS µA µA V V V V mV mV nA kHz %/°C % µs %/V mV µA A A V nA V µA V V µA µA µA Note 1: Hysteresis specified is DC. Output ripple may be higher if output capacitance is insufficient or capacitor ESR is excessive. LT1303/LT1303-5 U W TYPICAL PERFORMANCE CHARACTERISTICS VCESAT vs Switch Current 225 190 200 180 175 170 150 125 100 900 160 150 140 75 130 50 120 25 110 0 0.1 1.0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 SWITCH CURRENT (A) 1000 ISW = 700mA RESISTANCE (kΩ) 200 VCESAT (mV) VCESAT (mV) 250 800 700 600 500 400 100 –50 –25 25 50 0 TEMPERATURE (°C) LT1303 G01 75 300 –50 100 LT1303-5 Sense Voltage 1.250 1.245 5.08 1.245 1.220 5.06 1.240 5.04 1.235 LBI VOLTAGE (V) SENSE VOLTAGE (V) 1.240 1.225 5.02 5.00 4.98 1.225 1.220 1.215 1.210 4.94 1.210 1.205 4.92 1.205 1.200 –50 4.90 –50 –25 25 50 0 TEMPERATURE (°C) 75 100 –25 25 50 0 TEMPERATURE (°C) LBI Pin Bias Current 1.200 –50 100 FB Pin Bias Current 18 1.40 16 1.30 BIAS CURRENT (nA) 10 8 6 14 12 10 8 6 4 4 2 2 0 –50 –25 25 50 0 TEMPERATURE (°C) 75 100 LT1303 G07 SWITCH CURRENT (A) 20 18 12 25 50 0 TEMPERATURE (°C) 75 0 –50 100 Switch Current Limit 1.50 14 –25 LT1303 G06 20 16 BIAS CURRENT (nA) 75 LT1303 G05 LT1330 G04 100 1.230 4.96 1.215 75 Low Battery Detect Trip Point 5.10 1.230 50 25 0 TEMPERATURE (˚C) LT1303 GO3 1.250 1.235 –25 LT1303 G02 LT1303 FB Voltage FEEDBACK VOLTAGE (V) LT1303-5 Sense Pin Resistance to Ground VCESAT vs Temperature VIN = 2V 1.20 1.10 1.00 0.90 0.80 0.70 –25 25 50 0 TEMPERATURE (°C) 75 100 LT1303 G08 0.60 –50 –25 0 25 50 TEMPERATURE (°C) 75 100 LT1303 G09 3 LT1303/LT1303-5 U W TYPICAL PERFORMANCE CHARACTERISTICS Oscillator Frequency Switch On-Time FREQUENCY (kHz) 7 ON-TIME (µs) 6 5 4 Maximum Duty Cycle 200 100 190 95 180 90 170 85 DUTY CYCLE (%) 8 160 150 140 130 2 –50 –25 0 25 50 TEMPERATURE (°C) 75 100 60 55 100 –50 50 –50 –25 25 50 0 TEMPERATURE (°C) 75 Quiescent Current SWITCH OFF VIN = 2V 160 150 140 130 120 400 100 75 L = 33µH VL = 3V 1100 SWITCH CURRENT (mA) 180 25 50 0 TEMPERATURE (°C) Switch Current Limit 1200 TA = 25°C SWITCH OFF 170 –25 LT1303 G12 500 QUIESCENT CURRENT (µA) QUIESCENT CURRENT (µA) 100 LT1303 G11 Quiescent Current 190 70 110 LT1303 G10 200 75 65 120 3 80 300 200 100 1000 900 800 110 100 –50 0 –25 25 50 0 TEMPERATURE (°C) 75 100 0 2 6 4 INPUT VOLTAGE (V) Transient Response Figure 1 Circuit 700 0 2 6 4 INPUT VOLTAGE (V) 8 10 LT1303 G15 Low Battery Detector Transient Response Shutdown Pin Response 5V VOUT 100mV/DIV AC COUPLED VLBO 2V/DIV VOUT 1V/DIV 200mA 0mA VLBI VSHDN 5V/DIV 200µs/DIV VIN = 2V VOUT = 5V 4 10 LT1303 G14 LT1303 G13 ILOAD 8 500µs/DIV LT1303 G16 RLOAD = 100Ω VIN = 2V VOUT = 5V COUT = 100µF VTRIP +10mV VTRIP –10mV 5µs/DIV LT1303 G17 RPULL-UP = 47k LT1303 G18 LT1303/LT1303-5 U U U PIN FUNCTIONS GND (Pin 1): Signal Ground. Tie to PGND under the package. LBI (Pin 5): Low-Battery Comparator Input. When voltage on this pin below 1.24V, LBO is low. LBO (Pin 2): Open-Collector Output of Low-Battery Comparator. Can sink 100µA. Disabled when device is in shutdown. VIN (Pin 6): Supply Pin. Must be bypassed with a large value electrolytic to ground. Keep bypass within 0.2" of the device. SHDN (Pin 3): Shutdown. Pull high to shut down the device. Ground for normal operation. SW (Pin 7): Switch Pin. Connect inductor and diode here. Keep layout short and direct to minimize radio frequency interference. FB/Sense (Pin 4): On 1303 (adjustable) this pin connects to the main comparator C1 input. On LT1303-5 this pin connects to the resistor string that sets output voltage at 5V. PGND (Pin 8): Power ground. Tie to signal ground (pin1) under the package. Bypass capacitor from VIN should be tied directly to PGND within 0.2" of the device. W BLOCK DIAGRA S D1 L1 VIN + C1 6 VIN 7 + HYSTERETIC COMPARATOR OFF – OSCILLATOR C1 R2 REFERENCE 1.24V – FB C2 R1 3Ω C2 4 + 18mV CURRENT COMPARATOR R1 SW A3 DRIVER Q2 1× Q1 160× + – C3 + GND 1 LBI 5 LBO 2 SHUTDOWN 3 8 PGND LT1303 BD01 Figure 2. LT1303 Block Digram 5 LT1303/LT1303-5 W BLOCK DIAGRA S FB 6 VIN 7 18mV CURRENT COMPARATOR R1 474k HYSTERETIC COMPARATOR – OFF – A3 DRIVER OSCILLATOR C1 R2 156k R1 3Ω C2 REFERENCE 1.24V SW + 4 Q2 1× Q1 160× + – C3 + GND 1 LBI 5 SHUTDOWN 3 LBO 2 8 Figure 3. LT1303-5 Block Diagram PGND LT1303 BD02 U OPERATION Operation of the LT1303 is best understood by referring to the Block Diagram in Figure 2. When C1’s negative input, related to the output voltage by the appropriate resistordivider ratio, is higher than the 1.24V reference voltage, C1’s output is low. C2, A3 and the oscillator are turned off, drawing no current. Only the reference and C1 consume current, typically 140µA. When C1’s negative input drops below 1.24V and overcomes C1’s 6mV hysteresis, C1’s output goes high, enabling the oscillator, current comparator C2 and driver A3. Quiescent current increases to 2mA as the device goes into active switching mode. Q1 then turns on in controlled saturation for nominally 6µs or until current comparator C2 trips, whichever comes first. The switch then turns off for approximately 1.5µs, then turns on again. The LT1303’s switching causes current to alternately build up in L1 and dump into output capacitor C4 via D1, increasing the output voltage. When the output is high enough to cause C1’s output to go high, switching action ceases. Capacitor C4 is left to supply current to the load until VOUT decreases enough to force C1’s output high, and the entire cycle repeats. Figure 4 details relevant waveforms. C1’s cycling causes low-to-mid-frequency ripple voltage on the output. Ripple can be reduced by making the 6 output capacitor large. The 100µF unit specified results in ripple of 50mV to 100mV on the 5V output. A 220µF capacitor will decrease ripple by approximately 50%. VOUT 100mV/DIV AC COUPLED VSW 5V/DIV IL 1A/DIV 20µs/DIV LT1303 F04 Figure 4. Burst Mode Operation in Action If switch current reaches 1A, causing C2 to trip, switch ontime is reduced and off-time increases slightly. This allows continuous operation during bursts. C2 monitors the voltage across 3Ω resistor R1 which is directly related to the switch current. Q2’s collector current is set by the emitter-area ratio to 0.6% of Q1’s collector current. When R1’s voltage drop exceeds 18mV, corresponding to 1A switch current, C2’s output goes high, truncating the ontime portion of the oscillator cycle and increasing off-time LT1303/LT1303-5 U OPERATION to about 2µs. Response time of C2, which determines minimum on-time, is approximately 300ns. Low Battery Detector hysteresis built in, but hysteresis can be added by connecting a high-value resistor from LBI to LBO as shown in Figure 5. The internal reference can be accessed via the comparator as shown in Figure 6. The low battery detector is enabled when SHDN is low and disabled when SHDN is high. The comparator has no VBAT VIN 100k 5V LT1303 LBO 2N3906 R1 1.24V R4 47k – LT1303 VREF OUTPUT + R2 49.9k 1% VIN R2 LBI + 2.2µF R1 GND ( ) R3 2M R1 = (VTRIP –1.24V) (43.5k) HYSTERESIS ≈ 30mV LT1303 F05 VREF = 1.24V 1 + R2 R1 VIN ≥ VREF + 200mV R1 + R2 ≈ 33k LT1303 F06 Figure 6. Accessing Internal Reference Figure 5. R3 Adds Hysteresis to Low-Battery Detector U W U U APPLICATIONS INFORMATION Inductor Section Inductors suitable for use with the LT1303 usually fall in the 5µH to 50µH range. The inductor must: (1) handle current of 1.25A without saturating, (2) have enough inductance to provide a di/dt lower than 400mA/µs, and (3) have low enough DC resistance to avoid excessive heating or efficiency losses. Higher value inductors will deliver more power but tend to be physically larger. Most ferrite core drum or rod inductors such as those specified in Table 1 are suitable for use. It is acceptable to bias openflux inductors (e.g. Sumida CD54) into saturation by 10 to 20% without adverse effects. Table 1. Recommended Inductors VENDOR Coilcraft Coiltronics Sumida Gowanda SERIES D03316 D01608 OCTAPAK CTX20-1 CTX20-2 CTX33-4 CD54 GA10 PHONE APPROPRIATE VALUES NUMBERS 10µH to 47µH (708) 639-6400 10µH (407) 241-7876 20µH 20µH 33µH 10µH to 33µH (708) 956-0666 10µH to 33µH (716) 532-2234 Figure 7 shows inductor current of a suitable inductor, di/dt is controlled at all times. The rapid rise in current shown in Figure 8 results from this inductor saturating at approximately 1A. Saturation occurs when the inductor cannot hold any more magnetic energy in the core. Current then increases rapidly, limited only by the resistance of the winding. Figure 9’s inductor has high DC resistance which results in the exponential time constant shape of the inductor current. IL 500mA/DIV 5µs/DIV LT1303 F07 Figure 7. Properly Chosen Inductor Does Not Saturate 7 LT1303/LT1303-5 U W U U APPLICATIONS INFORMATION Capacitor Selection LT1303 F08 Figure 8. This Inductor Saturates at IL≈1A. A Poor Choice Input and output capacitors should have low ESR for best efficiency. Recommended capacitors include AVX TPS series, Sprague 595D series, and Sanyo OS-CON. The output capacitor’s ESR determines the high frequency ripple amplitude. A 100µF capacitor is the minimum recommended for a 5V output. Higher output voltages can use lower capacitance values. For example, a 12V output can use a 33µF or 47µF capacitor. The VIN pin of the LT1303 should be decoupled with a 47µF or 100µF capacitor at the pin. When driving a transformer, an additional decoupling network of 10Ω and 0.1µF ceramic is recommended as shown in Figure 10. VIN 10Ω + LT1303 F09 VIN 47µF Figure 9. Slight Exponential Shape to Inductor Current Waveform Indicates Excessive DC Resistance 0.1µF CERAMIC SW GND Diode Selection The LT1303’s high switching speed demands a high speed rectifier. Schottky diodes are preferred for their low forward drop and fast recovery. Suitable choices include the 1N5817, MBRS120LT3, and MBR0520LT1. Do not use signal diodes such as 1N4148. They cannot carry 1A current. Also avoid “general-purpose” diodes such as 1N4001. These are far too slow and are unsuitable for any switching regulator application. For high temperature applications a silicon diode such as the MUR105 will have less leakage. 8 • • • LT1303 PGND LT1303 F10 Figure 10. 10Ω-1µF Network to LT1303 VIN Pin Provides Additional Decoupling. Recommended When Driving Transformers. Table 2. Recommended Capacitors VENDOR AVX Sanyo Panasonic Sprague SERIES TPS OS-CON HFQ 595D TYPE Surface Mount Through-Hole Through-Hole Surface Mount PHONE NUMBERS (803) 448-9411 (619) 661-6835 (201) 348-5200 (603) 224-1961 LT1303/LT1303-5 U TYPICAL APPLICATIONS Setting Output Voltage on LT1303 1N5817 L1 VIN VIN SW VOUT + R2 LT1303 100µF + FB GND PGND 100µF R1 ( ) VOUT = 1.24V 1 + R2 R1 1303 TA03 5V Step-Up Converter with Reference Output 100k 2N3906 VIN LBO + LBI + 2.2µF * SUMIDA CD54-220MC 33k SW GND OUTPUT 5V SENSE LT1303-5 100µF VREF OUTPUT 1.24V 1N5817 22µH* INPUT 1.8V TO 4.5V + SHDN 100µF PGND 1303 TA04 9 LT1303/LT1303-5 U TYPICAL APPLICATIONS 4-, 5-Cell to 5V Converter with Output Disconnect 510Ω MBRS130T3 10µH* VIN 2V TO 8V ZTX788B VIN SW VOUT 5V 100mA SENSE + LT1303-5 33µF + + SHDN GND 33µF PGND 220µF** SHUTDOWN *SUMIDA CD54-100MC **AVX TPS 220µF/10V LT1303TA05 3-Cell to 3.3V Boost/Linear Converter with Output Disconnect MBRS130T3 10µH* VIN 2V TO 6V Si9433 100k VIN SHUTDOWN SW SHDN 100Ω LB0 + LT1303 + 33µF 33µF LBI GND PGND VOUT 3.3V/200mA 1.96k† 121k† *SUMIDA CD54-100MC **AVX TPS 330µF/6.3V † 1% METAL FILM 10 200k† FB + 330µF** ×2 LT1303 TA07 LT1303/LT1303-5 U TYPICAL APPLICATIONS EL Panel Driver T1** 1:15 VIN 1.5V TO 8V 10Ω 4,5 •6 • 10 MUR160 C1* 50pF 1,2 1N5818 4.7µF 160V 3.3M + VIN 47µF 0.1µF CERAMIC SW 3.3M 1k 1/2W 3.3M LT1303 1N4148 FB SHDN GND + EL PANEL 10k MPSA42 PGND 51k SHUTDOWN R1† 25k 100Hz TO 1000Hz SQUARE WAVE DRIVE *ADD C1 FOR OPEN-PANEL PROTECTION **DALE LPE5047-A132 1:15 TURNS RATIO (605) 666-9301 † R1 ADJUSTS VOUT 83VRMS TO 115VRMS Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of circuits as described herein will not infringe on existing patent rights. LT1303 TA06 11 LT1303/LT1303-5 U PACKAGE DESCRIPTION Dimensions in inches (millimeters) unless otherwise noted. N8 Package 8-Lead Plastic DIP 0.300 – 0.325 (7.620 – 8.255) 0.009 – 0.015 (0.229 – 0.381) ( +0.025 0.325 –0.015 8.255 +0.635 –0.381 ) 0.400* (10.160) MAX 0.130 ± 0.005 (3.302 ± 0.127) 0.045 – 0.065 (1.143 – 1.651) 0.065 (1.651) TYP 8 7 6 5 1 2 3 4 0.255 ± 0.015* (6.477 ± 0.381) 0.125 (3.175) MIN 0.005 (0.127) MIN 0.015 (0.380) MIN N8 0695 0.018 ± 0.003 (0.457 ± 0.076) 0.100 ± 0.010 (2.540 ± 0.254) *THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.010 INCH (0.254mm) S8 Package 8-Lead Plastic SOIC 0.189 – 0.197* (4.801 – 5.004) 0.010 – 0.020 × 45° (0.254 – 0.508) 0.008 – 0.010 (0.203 – 0.254) 0.053 – 0.069 (1.346 – 1.752) 0.004 – 0.010 (0.101 – 0.254) 8 7 6 5 0°– 8° TYP 0.016 – 0.050 0.406 – 1.270 0.014 – 0.019 (0.355 – 0.483) 0.050 (1.270) BSC 0.150 – 0.157** (3.810 – 3.988) 0.228 – 0.244 (5.791 – 6.197) *DIMENSION DOES NOT INCLUDE MOLD FLASH. MOLD FLASH SHALL NOT EXCEED 0.006" (0.152mm) PER SIDE **DIMENSION DOES NOT INCLUDE INTERLEAD FLASH. INTERLEAD FLASH SHALL NOT EXCEED 0.010" (0.254mm) PER SIDE 1 2 3 4 SO8 0695 RELATED PARTS PART NUMBER DESCRIPTION COMMENTS LT1129 Micropower Low Dropout Regulator 700mA Output Current in SO-8 Package LT1182/83/84 LCD and CCFL Backlight Controller High Efficiency and Excellent Backlight Control Range LT1301 5V to 12V/200mA Step-Up DC/DC Converter 120µA Quiescent Current LT1302 2-Cell to 5V/600mA Step-Up DC/DC Converter 200µA Quiescent Current LT1305 Micropower 2A Switch DC/DC Converter with Low-Battery Detect 2V to 5V at 400mA LT1372 500kHz Step-Up PWM, 1.5A Switch Low Noise, Fixed Frequency Operation LTC ®1472 PCMCIA Host Switch with Protection Includes Current Limit and Thermal Shutdown 12 Linear Technology Corporation LT/GP 0195 10K • PRINTED IN USA 1630 McCarthy Blvd., Milpitas, CA 95035-7487 (408) 432-1900 ● FAX: (408) 434-0507 ● TELEX: 499-3977  LINEAR TECHNOLOGY CORPORATION 1995
LT1303IS8-5#TRPBF
物料型号:LT1303/LT1303-5

器件简介:LT1303/LT1303-5是微功耗高效DC/DC转换器,采用Burst Mode™操作,适用于小型、低电压电池供电系统。LT1303-5输入电压在1.8V至5V之间,转换为稳定的5V输出。LT1303是可调版本,可提供高达25V的输出电压。

引脚分配: - GND (Pin 1): 信号地。 - LBO (Pin 2): 低电池比较器的开路输出。 - SHDN (Pin 3): 关闭引脚。 - FB/Sense (Pin 4): 反馈/感应引脚。 - LBI (Pin 5): 低电池比较器输入。 - VIN (Pin 6): 供电引脚。 - SW (Pin 7): 开关引脚。 - PGND (Pin 8): 电源地。

参数特性: - 低至1.8V的供电电压。 - 高达88%的效率。 - 120µA的静态电流。 - 低电池检测器。 - 开关饱和电压低:在1A开关电流时为170mV。 - 使用便宜的表面安装电感器。 - 提供8引脚PDIP或SO封装。

功能详解: - LT1303/LT1303-5在轻载条件下采用突发模式操作,以降低静态电流并提高效率。 - 低电池检测器在输入电压低于预设水平时提供开路输出。 - 器件在关闭模式下进一步降低电流至10µA。

应用信息: - 适用于EL面板驱动器、便携式计算机、便携式仪器、条码扫描器、PDA、无线系统等。

封装信息: - LT1303/LT1303-5提供8引脚PDIP或SO封装,以满足板空间要求。
LT1303IS8-5#TRPBF 价格&库存

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