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AAT3114A

AAT3114A

  • 厂商:

    ANALOGICTECH

  • 封装:

  • 描述:

    AAT3114A - High Efficiency 1.5X Fractional Charge Pumps For White LED Applications - Advanced Analog...

  • 数据手册
  • 价格&库存
AAT3114A 数据手册
PRODUCT DATASHEET AAT3113, AAT3114/14A ChargePump TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Features • • • • • • • • • • • • • • • • • AAT3113: Four Outputs AAT3114/14A: Six Outputs 20mA Full-Scale Current Simple Serial Control (S2Cwire) Interface ▪ 32-Position Logarithmic Scale with Digital Control Low Noise Constant Frequency Operation 33% Less Input Current Than Doubler Charge Pump High Accuracy Brightness Matching Small Application Circuit Regulated Output Current Automatic Soft Start VIN Range: 2.7V to 5.5V No Inductors 600kHz Switching Frequency IQ 50ns 300ns < TLO < 75µs 50ns minimum to enable ON/1 2 3 4 5 6 n (n < =32) OFF Figure 3: Enable / Disable / LED Brightness Level Set Data Input. LED Selection AAT3113 and AAT3114/14A devices are designed to drive white LEDs with forward voltages to 4.2V. Since the D1:D6 output current sources are matched with negligible voltage dependence, the LED brightness will be matched regardless of their forward voltage matching. Charge Pump Efficiency The AAT3113 and AAT3114/14A devices are fractional charge pumps. The efficiency (η) can be simply defined as a linear voltage regulator with an effective output voltage that is equal to one and one half times the input voltage. Efficiency (η) for an ideal 1.5X charge pump can typically be expressed as the output power divided by the input power: internal switching losses and IC quiescent current consumption, the actual efficiency can be measured at 93%. These figures are in close agreement for output load conditions from 1mA to 100mA. Efficiency will decrease as load current drops below 0.05mA or when the level of VIN approaches VOUT. Refer to the Typical Characteristics section of this datasheet for measured plots of efficiency versus input voltage and output load current for the given charge pump output voltage options. Power Efficiency and Device Evaluation The charge pump efficiency discussion in the previous section only accounts for efficiency of the charge pump section itself. Due to the unique circuit architecture and design of the AAT3113 and AAT3114/14A, it is very difficult to measure efficiency in terms of a percent value comparing input power over output power. Since the device outputs are pure constant current sources, it is difficult to measure the output voltage for a given output (D1 to D6) to derive an output power measurement. For any given application, white LED forward voltage levels can differ, yet the output drive current will be maintained as a constant. This makes quantifying output power a difficult task when taken in the context of comparing to other white LED driver circuit topologies. A better way to quantify total device efficiency is to observe the total input power to the device for a given LED current drive level. The best white LED driver for a given application should be based on trade-offs of size, external components count, reliability, operating range, and total energy usage...not just “% efficiency.” η= POUT PIN In addition, with an ideal 1.5X charge pump, the output current may be expressed as 2/3 of the input current. The expression to define the ideal efficiency (η) can be rewritten as: η= -or- POUT VOUT · IOUT V = = OUT PIN VIN · 1.5IOUT 1.5VIN η(%) = 100 ⎛ VOUT ⎞ ⎝ 1.5VIN⎠ For a charge pump with an output of 5V and a nominal input of 3.5V, the theoretical efficiency is 95%. Due to 10 www.analogictech.com 3113.2008.05.1.10 PRODUCT DATASHEET AAT3113, AAT3114/14A ChargePump 700 600 TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications tions, size or area, material composition, and ambient temperature. Capacitor ESR is typically measured in milliohms for ceramic capacitors and can range to more than several ohms for tantalum or aluminum electrolytic capacitors. VIN = 3.6V Input Power (mW) 500 400 300 200 100 0 0 20 40 60 80 100 120 140 Ceramic Capacitor Materials Ceramic capacitors less than 0.1µF are typically made from NPO or C0G materials. NPO and C0G materials generally have tight tolerance and are very stable over temperature. Larger capacitor values are usually composed of X7R, X5R, Z5U, or Y5V dielectric materials. Large ceramic capacitors (i.e., greater than 2.2µF) are often available in low-cost Y5V and Z5U dielectrics, but capacitors greater than 1µF are not typically required for AAT3113 or AAT3114/14A applications. Capacitor area is another contributor to ESR. Capacitors that are physically large will have a lower ESR when compared to an equivalent material smaller capacitor. These larger devices can improve circuit transient response when compared to an equal value capacitor in a smaller package size. Output (LED) Current (mA) Figure 3: AAT3113/AAT3114 Input Power vs. LED Current Capacitor Selection Careful selection of the four external capacitors CIN, C1, C2, and COUT is important because they will affect turn-on time, output ripple, and transient performance. Optimum performance will be obtained when low equivalent series resistance (ESR) ceramic capacitors are used. In general, low ESR may be defined as less than 100mΩ. A value of 1µF for all four capacitors is a good starting point when choosing capacitors. If the LED current sources are only programmed for minimal current levels, then the capacitor size may be decreased. Test Current/Channel Disable Each channel of the output is equipped with a test current function. The AAT3113 and AAT3114 use a small (~2µA) current source injected into each output pin to detect the presence of an LED. Unused channels other than channel 1 should be left open and will be automatically diasbled instead of wasting the programmed output current. The test current in the AAT3114A is higher (~150µA) to accommodate LEDs with lower impedance in failure mode. Capacitor Characteristics Ceramic composition capacitors are highly recommended over all other types of capacitors for use with the AAT3113 and AAT3114/14A products. Ceramic capacitors offer many advantages over their tantalum and aluminum electrolytic counterparts. A ceramic capacitor typically has very low ESR, is lowest cost, has a smaller PCB footprint, and is non-polarized. Low ESR ceramic capacitors help maximize charge pump transient response. Since ceramic capacitors are non-polarized, they are not prone to incorrect connection damage. Thermal Protection The AAT3113 and AAT3114/14A have a thermal protection circuit that will shut down the charge pump and current outputs if the die temperature rises above the thermal limit. However, thermal resistance of the QFN package is so low that if, in the case of the AAT3114/14A, all six outputs are shorted to ground at maximum 20mA output level, the die temperature will not rise sufficiently to trip the thermal protection. The thermal protection will only trip if COUT is shorted to ground and the ambient temperature is high. Equivalent Series Resistance ESR is an important characteristic to consider when selecting a capacitor. ESR is a resistance internal to a capacitor that is caused by the leads, internal connec- 3113.2008.05.1.10 www.analogictech.com 11 PRODUCT DATASHEET AAT3113, AAT3114/14A ChargePump TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications parallel-connected current sources. This feature is particularly useful to power pre-manufactured display modules that are pre-wired with white LED backlights connected in a parallel circuit configuration. All outputs can be connected in parallel to drive groups of LEDs as well. The internal current source reference circuit bases feedback from current sensed on the D1 output. For best operation, the only requirement for this application is that the output D1 should always be connected to the load circuit. Driving White LED Display Module Backlights and Individual White LEDs Connected in Parallel The AAT3114/14A D1 to D6 outputs are true constant current sources capable of driving up to 20mA each over the operation input voltage range. Since these outputs are true constant current sources, they may be connected in parallel to drive a single power output. Any combination of outputs (D1 to D6) may be connected in parallel. The maximum total output current is a sum of 12 www.analogictech.com 3113.2008.05.1.10 PRODUCT DATASHEET AAT3113, AAT3113, AAT3114/14A ChargePump TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Application Circuits VIN C1+ C1 1µF OUT V BATTERY CIN 1µF COUT 1µF C1C2+ C2 1µF AAT3114/14A C2D1 D2 D3 D4 D5 D6 Display Module D1 D2 D3 D4 D5 D6 EN/SET EN/SET GND R1 R2 R3 R4 R5 R6 Resistor R is optional Figure 4: AAT3114/14A Application Driving a Display Module With Six Parallel-Connected White LEDs. VIN C1+ C1 1µF OUT V BATTERY CIN 1µF COUT 1µF C1C2+ C2 1µF AAT3114/14A C2D1 D2 D3 D4 D5 D6 Keyboard Backlight Display Backlight D4 D1 D2 D3 D5 D6 EN/SET EN/SET GND Enable Keyboard Backlight Enable Display Backlight Figure 5: AAT3114/14A Dual Backlight Control Circuit. 3113.2008.05.1.10 www.analogictech.com 13 PRODUCT DATASHEET AAT3113, AAT3113, AAT3114/14A ChargePump TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications Ordering Information Package TSOPJW-12 QFN44-16 QFN44-16 Marking1 HTXYY FGXYY OVXYY Part Number (Tape and Reel)2 AAT3113ITP-20-T1 AAT3114ISN-20-T1 AAT3114AISN-20-T1 All AnalogicTech products are offered in Pb-free packaging. The term “Pb-free” means semiconductor products that are in compliance with current RoHS standards, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. For more information, please visit our website at http://www.analogictech.com/about/quality.aspx. Package Information QFN44-163 2.400 ± 0.050 0.550 ± 0.020 Pin 1 Dot By Marking 0.330 ± 0.075 13 16 Pin 1 Identification 1 4.000 ± 0.050 0.650 BSC C0.3 9 4 8 5 4.000 ± 0.050 2.280 REF Top View Bottom View 2.400 ± 0.050 0.214 ± 0.036 0.900 ± 0.100 0.025 ± 0.025 Side View All dimensions in millimeters. 1. XYY = assembly and date code. 2. Sample stock is generally held on all part numbers listed in BOLD. 3. The leadless package family, which includes QFN, TQFN, DFN, TDFN and STDFN, has exposed copper (unplated) at the end of the lead terminals due to the manufacturing process. A solder fillet at the exposed copper edge cannot be guaranteed and is not required to ensure a proper bottom solder connection. 14 www.analogictech.com 3113.2008.05.1.10 PRODUCT DATASHEET AAT3113, AAT3113, AAT3114/14A ChargePump TM High Efficiency 1.5X Fractional Charge Pumps For White LED Applications TSOPJW-12 0.20 + 0.10 - 0.05 2.40 ± 0.10 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 2.85 ± 0.20 7° NOM 3.00 ± 0.10 0.9625 ± 0.0375 + 0.10 1.00 - 0.065 0.04 REF 0.055 ± 0.045 4° ± 4° 0.010 0.15 ± 0.05 0.45 ± 0.15 2.75 ± 0.25 All dimensions in millimeters. Advanced Analogic Technologies, Inc. 3230 Scott Boulevard, Santa Clara, CA 95054 Phone (408) 737-4600 Fax (408) 737-4611 © Advanced Analogic Technologies, Inc. AnalogicTech cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in an AnalogicTech product. No circuit patent licenses, copyrights, mask work rights, or other intellectual property rights are implied. AnalogicTech reserves the right to make changes to their products or specifications or to discontinue any product or service without notice. Except as provided in AnalogicTech’s terms and conditions of sale, AnalogicTech assumes no liability whatsoever, and AnalogicTech disclaims any express or implied warranty relating to the sale and/or use of AnalogicTech products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. In order to minimize risks associated with the customer’s applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards. Testing and other quality control techniques are utilized to the extent AnalogicTech deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed. AnalogicTech and the AnalogicTech logo are trademarks of Advanced Analogic Technologies Incorporated. All other brand and product names appearing in this document are registered trademarks or trademarks of their respective holders. 3113.2008.05.1.10 www.analogictech.com 15
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