0
登录后你可以
  • 下载海量资料
  • 学习在线课程
  • 观看技术视频
  • 写文章/发帖/加入社区
会员中心
创作中心
发布
  • 发文章

  • 发资料

  • 发帖

  • 提问

  • 发视频

创作活动
FAN2510S285X

FAN2510S285X

  • 厂商:

    FAIRCHILD(仙童半导体)

  • 封装:

  • 描述:

    FAN2510S285X - 100 mA CMOS LDO Regulators with Fast Start Enable - Fairchild Semiconductor

  • 数据手册
  • 价格&库存
FAN2510S285X 数据手册
www.fairchildsemi.com FAN2510, FAN2511 100 mA CMOS LDO Regulators with Fast Start Enable Features • • • • • • • • Ultra Low Power Consumption Enable optimized for CDMA time slices 100 mV dropout voltage at 100 mA 25 µA ground current at 100 mA Enable/Shutdown Control SOT23-5 package Thermal limiting 300 mA peak current wide variety of external capacitors, and the compact SOT23-5 surface-mount package. In addition, the FAN2510/11 family offer the fast power-cycle time required in CDMA handset applications. These products offer significant improvements over older BiCMOS designs and are pin-compatible with many popular devices. The output is thermally protected against overload. The FAN2510 and FAN2511 devices are distinguished by the assignment of pin 4: FAN2510: pin 4 – ADJ, allowing the user to adjust the output voltage over a wide range using an external voltage divider. FAN2510-XX: pin 4 – BYP, to which a bypass capacitor may be connected for optimal noise performance. Output voltage is fixed, indicated by the suffix XX. FAN2511-XX: pin 4 – ERR, a flag which indicates that the output voltage has dropped below the specified minimum due to a fault condition. The standard fixed output voltages available are 2.5V, 2.6V, 2.7V, 2.8V, 2.85V, 3.0V, and 3.3V. Custom output voltage are also available: please contact your local Fairchild Sales Office for information. Applications • • • • Cellular Phones and accessories PDAs Portable cameras and video recorders Laptop, notebook and palmtop computers Description The FAN2510/11 family of micropower low-dropout voltage regulators utilize CMOS technology to offer a new level of cost-effective performance in GSM, TDMA, and CDMA cellular handsets, Laptop and Notebook portable computers, and other portable devices. Features include extremely low power consumption and low shutdown current, low dropout voltage, exceptional loop stability able to accommodate a Block Diagrams EN VIN Bandgap Error Amplifier p VOUT ADJ Thermal Sense FAN2510 GND FAN25100-XX EN VIN Bandgap p VOUT ERR Error Amplifier Thermal Sense VIN Bandgap p VOUT EN BYP Error Amplifier GND Thermal Sense FAN2511-XX GND REV. 1.0.6 2/14/03 PRODUCT SPECIFICATION FAN2510/FAN2511 Pin Assignments VIN GND EN 1 5 VOUT 2 3 4 ADJ/BYP/ERR Pin No. 1. 2. 3. 4. 5. FAN2510 VIN GND EN ADJ VOUT FAN2510-XX VIN GND EN BYP VOUT FAN2511-XX VIN GND EN ERR VOUT Pin Descriptions Pin Name ADJ BYP ERR Pin No. 4 4 4 Type Input Passive Open drain Pin Function Description FAN2510 Adjust. Ratio of potential divider from VOUT to ADJ determines output voltage. FAN2510-XX Bypass. Connect 470 pF capacitor for noise reduction. FAN2511-XX Error. Error flag output. 0: Output voltage < 95% of nominal. 1: Output voltage > 95% of nominal. Enable. 0: Shutdown VOUT. 1: Enable VOUT. Voltage Input. Supply voltage input. Voltage Output. Regulated output voltage. Ground. EN 3 Digital Input VIN VOUT GND 1 5 2 Power in Power out Power Functional Description Designed utilizing CMOS process technology, the FAN2510/11 family of products are carefully optimized for use in compact battery-powered devices, offering a unique combination of low power consumption, extremely low dropout voltages, high tolerance for a variety of output capacitors, and the ability to disable the output to less than 1µA under user control. In the circuit, a difference amplifier controls the current through a series-pass P-Channel MOSFET, comparing the load voltage at the output with an onboard low-drift bandgap reference. The series resistance of the pass P-Channel MOSFET is approximately 1Ω, resulting in an unusually low dropout voltage under load when compared to older bipolar pass-transistor designs. Protection circuitry is provided onboard for overload conditions. In conditions where the device reaches temperatures exceeding the specified maximums, an onboard circuit shuts down the output, where it remains suspended until it has cooled before re-enabling. The user is also free to shut down the device using the Enable control pin at any time. Careful design of the output regulator amplifier assures loop stability over a wide range of ESR values in the external output capacitor. A wide range of values and types can be accommodated, allowing the user to select a capacitor meeting his space, cost, and performance requirements, and enjoy reliable operation over temperature, load, and tolerance variations. 2 REV. 1.0.6 2/14/03 FAN2510/FAN2511 PRODUCT SPECIFICATION An Enable pin, available on all devices, allows the user to shut down the regulator output to conserve power, reducing supply current to less than 1µA. The output can then be re-Enabled within 500µSec, fulfilling the fast power-cycling needs of CDMA applications. Depending on the model selected, other control and status functions are available at pin 4 to enhance the operation of the device. The adjustablevoltage versions utilize pin 4 to connect to an external voltage divider which feeds back to the regulator error amplifier, thereby setting the voltage as desired. Two other functions are available in the fixed-voltage versions: in noise-sensitive applications, an external Bypass capacitor connection is provided that allows the user to achieve optimal noise performance at the output, while the Error output functions as a diagnostic flag to indicate that the output voltage has dropped more than 5% below the nominal fixed voltage. more. Tantalum or aluminum electrolytic, or multilayer ceramic types can all be used. A nominal value of at least 1µF is recommended. Bypass Capacitor (FAN2510 Only) In the fixed-voltage configuration, connecting a capacitor between the bypass pin and ground can significantly reduce noise on the output. Values ranging from 470pF to 10nF can be used, depending on the sensitivity to output noise in the application. At the high-impedance Bypass pin, care must be taken in the circuit layout to minimize noise pickup, and capacitors must be selected to minimize current loading (leakage). Noise pickup from external sources can be considerable. Leakage currents into the Bypass pin will directly affect regulator accuracy and should be kept as low as possible; thus, highquality ceramic and film types are recommended for their low leakage characteristics. Cost-sensitive applications not concerned with noise can omit this capacitor. Applications Information External Capacitors – Selection The FAN2510/11 allows the user to utilize a wide variety of capacitors compared to other LDO products. An innovative design approach offers significantly reduced sensitivity to ESR (Effective Series Resistance), which degrades regulator loop stability in older designs. While the improvements featured in the FAN2510/11 family greatly simplify the design task, capacitor quality still must be considered if the designer is to achieve optimal circuit performance. In general, ceramic capacitors offer superior ESR performance, at a lower cost and a smaller case size than tantalums. Those with X7R or Y5Vdielectric offer the best temperature coefficient characteristics. The combination of tolerance and variation over temperature in some capacitor types can result in significant variations, resulting in unstable performance over rated conditions. Control Functions Enable Pin Applying a voltage of 0.4V or less at the Enable pin will disable the output, reducing the quiescent output current to less than 1µA, while a voltage of 2.0V or greater will enable the device. If this shutdown function is not needed, the pin can simply be connected to the VIN pin. Allowing this pin to float will cause erratic operation. Error Flag (FAN2511 Only) To indicate conditions such as input voltage dropout (low VIN), overheating, or overloading (excessive output current), the ERR pin indicates a fault condition. It is an open-drain output which is HIGH when the voltage at VOUT is greater than 95% of the nominal rated output voltage and LOW when VOUT is less than 95% or the rated output voltage, as specified in the error trip level characteristics. A logic pullup resistor of 100KΩ is recommended at this output. The pin can be left disconnected if unused. Thermal Protection The FAN2510/11 is designed to supply high peak output currents of up to 1A for brief periods, however this output load will cause the device temperature to increase and exceed maximum ratings due to power dissipation. During output overload conditions, when the die temperature exceeds the shutdown limit temperature of 150°C, onboard thermal protection will disable the output until the temperature drops below this limit, at which point the output is then re-enabled. During a thermal shutdown situation the user may assert the power-down function at the Enable pin, reducing power consumption to the minimum level IGND · VIN. Input Capacitor An input capacitor of 2.2µF (nominal value) or greater, connected between the Input pin and Ground, located in close proximity to the device, will improve transient response and noise rejection. Higher values will offer superior input ripple rejection and transient response. An input capacitor is recommended when the input source, either a battery or a regulated AC voltage, is located far from the device. Any good quality ceramic, tantalum, or metal film capacitor will give acceptable performance, however tantalum capacitors with a surge current rating appropriate to the application must be selected to avoid catastrophic failure. Output Capacitor An output capacitor is required to maintain regulator loop stability. Unlike many other LDO regulators, the FAN2510/11 family of products are nearly insensitive to output capacitor ESR. Stable operation will be achieved with a wide variety of capacitors with ESR values ranging from 10mΩ to 10Ω or REV. 1.0.6 2/14/03 3 PRODUCT SPECIFICATION FAN2510/FAN2511 Thermal Characteristics The FAN2510/11 is designed to supply 100mA at the specified output voltage with an operating die (junction) temperature of up to 125°C. Once the power dissipation and thermal resistance is known, the maximum junction temperature of the device can be calculated. While the power dissipation is calculated from known electrical parameters, the thermal resistance is a result of the thermal characteristics of the compact SOT23-5 surface-mount package and the surrounding PC Board copper to which it is mounted. The power dissipation is equal to the product of the input-tooutput voltage differential and the output current plus the ground current multiplied by the input voltage, or: P D = ( V IN – V OUT ) I OUT + V IN I GND device to enter a thermal cycling loop, in which the circuit enters a shutdown condition, cools, re-enables, and then again overheats and shuts down repeatedly due to an unmanaged fault condition. Operation of Adjustable Version The adjustable version of the FAN2510/11 includes an input pin ADJ which allows the user to select an output voltage ranging from 1.8V to near VIN, using an external resistor divider. The voltage VADJ presented to the ADJ pin is fed to the onboard error amplifier which adjusts the output voltage until VADJ is equal to the onboard bandgap reference voltage of 1.32V(typ). The equation is: R upper V OUT = 1.32V × 1 + --------------R lower The ground pin current IGND can be found in the charts provided in the Electrical Characteristics section. The relationship describing the thermal behavior of the package is:  T J ( max ) – T A  P D ( max ) =  -------------------------------  θ JA   The total value of the resistor chain should not exceed 250KΩ total to keep the error amplifier biased during no-load conditions. Programming output voltages very near VIN need to allow for the magnitude and variation of the dropout voltage VDO over load, supply, and temperature variations. Note that the low-leakage FET input to the CMOS Error Amplifier induces no bias current error to the calculation. where TJ(max) is the maximum allowable junction temperature of the die, which is 125°C, and TA is the ambient operating temperature. θJA is dependent on the surrounding PC board layout and can be empirically obtained. While the θJC (junction-to-case) of the SOT23-5 package is specified at 130°C /W, the θJA of the minimum PWB footprint will be at least 235°C /W. This can be improved upon by providing a heat sink of surrounding copper ground on the PWB. Depending on the size of the copper area, the resulting θJA can range from approximately 180°C /W for one square inch to nearly 130°C /W for 4 square inches. The addition of backside copper with through-holes, stiffeners, and other enhancements can also aid in reducing this value. The heat contributed by the dissipation of other devices located nearby must be included in design considerations. Once the limiting parameters in these two relationships have been determined, the design can be modified to ensure that the device remains within specified operating conditions. If overload conditions are not considered, it is possible for the General PWB Layout Considerations To achieve the full performance of the device, careful circuit layout and grounding technique must be observed. Establishing a small local ground, to which the GND pin, the output and bypass capacitors are connected, is recommended, while the input capacitor should be grounded to the main ground plane. The quiet local ground is then routed back to the main ground plane using feedthrough vias. In general, the highfrequency compensation components (input, bypass, and output capacitors) should be located as close to the device as possible. The proximity of the output capacitor is especially important to achieve optimal noise compensation from the onboard error amplifier, especially during high load conditions. A large copper area in the local ground will provide the heat sinking discussed above when high power dissipation significantly increases the temperature of the device. Component-side copper provides significantly better thermal performance for this surface-mount device, compared to that obtained when using only copper planes on the underside. 4 REV. 1.0.6 2/14/03 FAN2510/FAN2511 PRODUCT SPECIFICATION Absolute Maximum Ratings (beyond which the device may be damaged)1 Parameter Power Supply Voltages VIN (Measured to GND) Enable Input (EN) Applied voltage (Measured to GND)2 ERR Output Applied voltage (Measured to GND)2 Power Dissipation3 Temperature Junction Lead Soldering (5 seconds) Storage Electrostatic Discharge 4 Min 0 0 0 Typ Max 7 7 7 Unit V V V Internally limited -65 -65 4 150 260 150 °C °C °C kV Notes: 1. Functional operation under any of these conditions is NOT implied. Performance and reliability are guaranteed only if Operating Conditions are not exceeded. 2. Applied voltage must be current limited to specified range. 3. Based upon thermally limited junction temperature: T J ( max ) – T A P D = ------------------------------Θ JA 4. Human Body Model is 4kV minimum using Mil Std. 883E, method 3015.7. Machine Model is 400V minimum using JEDEC method A115-A. Recommended Operating Conditions Parameter VIN VOUT VEN VERR TJ θJA θJC Input Voltage Range Output Voltage Range, Adjustable Enable Input Voltage ERR Flag Voltage Junction Temperature Thermal resistance Thermal resistance -40 220 130 Min 2.7 VREF 0 Nom Max 6.5 VIN-VDO VIN VIN +125 Units V V V V °C °C/W °C/W REV. 1.0.6 2/14/03 5 PRODUCT SPECIFICATION FAN2510/FAN2511 Electrical Characteristics (Notes 1, 2) Symbol Regulator VDO Drop Out Voltage IOUT = 100 µA IOUT = 50 mA IOUT = 100 mA ∆VO VDO ∆VO3 IGND Protection Current Limit IGSD TSH ETL VIL VIH IIH II Shut-Down Current Thermal Protection Shutdown Temperature ERR Trip Level Logic Low Voltage Logic High Voltage Input Current High Input Current Low 2.0 FAN2511 only EN = 0V 150 90 95 1.2 1.4 1 1 99 0.4 Thermally Protected 1 µA °C % V V µA µA Output Voltage Accuracy Reference Voltage Accuracy, Adjustable Mode Output Voltage Accuracy, Adjustable Mode Ground Pin Current IOUT = 100 mA -2 1.24 -6 1.32 2.5 50 100 4 75 140 2 1.40 6 50 mV mV mV % V % µA Parameter Conditions Min. Typ. Max. Units Enable Input Switching Characteristics (Notes 1, 2) Parameter Enable Input4 500 3 µsec msec Response time Error Flag (FAN2511-XX) Response time Conditions Min. Typ. Max. Unit Performance Characteristics (Notes 1, 2) Symbol ∆VOUT/∆VIN ∆VOUT/VOUT eN Parameter Line regulation Load regulation Output noise Conditions VIN = (VOUT + 1) to 6.5V IOUT = 0.1 to 100mA 10Hz–1KHz COUT = 10µF, CBYP = 0.01µF >10KHz, COUT = 10µF, CBYP = 0.01µF PSRR Power Supply Rejection 120 Hz, COUT = 10µF, CBYP = 0.01µF Min. Typ. 0.3 1.0
FAN2510S285X 价格&库存

很抱歉,暂时无法提供与“FAN2510S285X”相匹配的价格&库存,您可以联系我们找货

免费人工找货