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| RT9001 600mA, Ultra-Fast Transient Response LDO Regulator General Description The RT9001 series are CMOS low dropout regulators optimized for ultra-fast transient response. The devices are capable of supplying 600mA of output current with a dropout voltage of 580mV respectively. The RT9001 series are is optimized for CD/DVD-ROM, CD/RW or wireless communication supply applications. The RT9001 regulators are stable with output capacitors as low as 1F. The other features include ultra low dropout voltage, high output accuracy, current limiting protection, and high ripple rejection ratio. The devices are available in fixed output voltages range of 1.2V to 4.5V with 0.1V per step. The RT9001 regulators are available in 3-lead SOT-223 package. Features Low Quiescent Current (Typically 220A) Guaranteed 600mA Output Current Low Dropout Voltage : 580mV at 600mA Wide Operating Voltage Ranges : 3V to 5.5V Ultra-Fast Transient Response Tight Load and Line Regulation Current Limiting Protection Thermal Shutdown Protection Only low-ESR Ceramic Capacitor Required for Stability Custom Voltage Available RoHS Compliant and 100% Lead (Pb)-Free Applications CD/DVD-ROM, CD/RW Wireless LAN Card/Keyboard/Mouse Battery-Powered Equipment XDSL Router PCMCIA Card Ordering Information RT9001Package Type G : SOT-223 Operating Temperature Range P : Pb Free with Commercial Standard G : Green (Halogen Free with Commercial Standard) Output Voltage 12 : 1.2V 13 : 1.3V : 45 : 4.5V Pin Configurations (TOP VIEW) Note : RichTek Pb-free and Green products are : RoHS compliant and compatible with the current requirements of IPC/JEDEC J-STD-020. Suitable for use in SnPb or Pb-free soldering processes. 100%matte tin (Sn) plating. 1 2 3 GND VOUT (TAB) VIN SOT-223 Marking Information For marking information, contact our sales representative directly or through a RichTek distributor located in your area, otherwise visit our website for detail. DS9001-04 March 2007 www.richtek.com 1 RT9001 Typical Application Circuit RT9001 VIN VIN CIN 1uF VOUT GND COUT 1uF VOUT Note: To prevent oscillation, a 1F minimum X7R or X5R dielectric is strongly recommended if ceramics are used as input/output capacitors. When using the Y5V dielectric, the minimum value of the input/output capacitance that can be used for stable over full operating temperature range is 3.3F. (see Application Information Section for further details) Functional Pin Description Pin Name VIN VOUT GND Pin Function Supply Input Regulator Output Common Ground Function Block Diagram VIN Error Amplifier + VOUT Current Limiting Sensor Thermal Shutdown 1.2V Reference GND www.richtek.com 2 DS9001-04 March 2007 RT9001 Absolute Maximum Ratings (Note 1) Supply Input Voltage -------------------------------------------------------------------------------------------------- 6.5V Power Dissipation, PD @ TA = 25C SOT-223 ----------------------------------------------------------------------------------------------------------------- 0.625W Package Thermal Resistance (Note 7) SOT-223, JA ------------------------------------------------------------------------------------------------------------ 160C/W Lead Temperature (Soldering, 10 sec.) --------------------------------------------------------------------------- 260C Junction Temperature ------------------------------------------------------------------------------------------------- 150C Storage Temperature Range ---------------------------------------------------------------------------------------- - 65C to 150C ESD Susceptibility (Note 2) HBM (Human Body Mode) ------------------------------------------------------------------------------------------ 2kV MM (Machine Mode) -------------------------------------------------------------------------------------------------- 200V Recommended Operating Conditions (Note 3) Supply Input Voltage -------------------------------------------------------------------------------------------------- 2.8V to 5.5V Junction Temperature Range ---------------------------------------------------------------------------------------- - 40C to 125C Electrical Characteristics (VIN = VOUT + 1V or VIN = 2.8V whichever is greater, CIN = 1F, COUT = 1F, TA = 25C, unless otherwise specified) Parameter Output Voltage Accuracy Current Limit Quiescent Current (Note 6) Dropout Voltage (Note 4) Line Regulation Load Regulation (Note 5) Power Supply Rejection Rate Thermal Shutdown Temperature Thermal Shutdown Hysteresis Symbol VOUT ILIM IQ VDROP VLINE VLOAD PSRR TSD TSD Test Conditions IOUT = 1mA RLOAD = 1 IOUT = 0mA IOUT = 600mA VIN = (VOUT + 0.3V) to 5.5V, IOUT = 1mA 1mA < IOUT < 600mA f = 1kHz, COUT = 1F Min -1 600 -------- Typ --220 580 0.2 30 -55 170 40 Max +3 -300 --55 ---- Units % mA A mV %/V mV dB C C Note 1. Stresses listed as the above "Absolute Maximum Ratings" may cause permanent damage to the device. These are for stress ratings. Functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may remain possibility to affect device reliability. Note 2. Devices are ESD sensitive. Handling precaution recommended. Note 3. The device is not guaranteed to function outside its operating conditions. Note 4.The dropout voltage is defined as VIN -VOUT, which is measured when VOUT is VOUT(NORMAL) - 100mV. Note 5. Regulation is measured at constant junction temperature by using a 20ms current pulse. Devices are tested for load regulation in the load range from 1mA to 600mA respectively. Note 6. Quiescent, or ground current, is the difference between input and output currents. It is defined by IQ = IIN - IOUT under no load condition (IOUT = 0mA). The total current drawn from the supply is the sum of the load current plus the ground pin current. Note 7. JA is measured in the natural convection at T A = 25C on a low effective thermal conductivity test board of JEDEC 51-3 thermal measurement standard. DS9001-04 March 2007 www.richtek.com 3 RT9001 Typical Operating Characteristics Output Voltage vs. Temperature 3.5 3.45 Quiescent Current vs. Temperature 250 Output Voltage (V) 3.4 3.35 3.3 3.25 3.2 3.15 Quiescent Current (uA) 230 210 190 170 VIN = 5V 3.1 -50 -25 0 25 50 75 100 125 150 -50 -25 0 25 50 75 100 125 Temperature (C) Temperature (C) Dropout Voltage vs. Load Current 700 600 Power Supply Rejection Ratio 0 CIN = 1uF COUT = 1uF TJ = 125C -10 Dropout Voltage (mV) VIN = 5V CIN = 1uF COUT = 1uF 500 400 300 200 100 0 0 100 200 PSRR (dB) TJ = 25C -20 -30 -40 -50 -60 TJ = -40C 100mA 1mA 300 400 500 600 10 100 1k 10k 100k 1M Load Current (mA) Frequency (Hz) Current Limit vs. Input voltage 900 900 Current Limit vs. Temperature Current Limit (mA) 800 Current Limit (mA) 850 850 800 750 VIN = 5V CIN = 1uF COUT = 1uF RL = 0.5 3 3.5 4 4.5 5 5.5 750 VIN = 5V CIN = 1uF COUT = 1uF RL = 0.5 -40 -50 -25 0 25 50 75 100 125 700 700 Input voltage (V) Temperature (C) www.richtek.com 4 DS9001-04 March 2007 RT9001 Region of Stable COUT ESR vs. Load Current 100.00 Output Noise VIN = 5V CIN = 1uF COUT = 1uF to 4.7uF 10.00 ILOAD = 100mA COUT = 1uF Instable Output Noise Signal (V) 400 200 0 -200 -400 f = 10Hz to 100kHz COUT ESR () 1.00 Stable 0.10 0.01 Instable 0.00 0 100 200 300 400 500 600 Time (1ms/DIV) Load Current (mA) Load Transient Response Load Current (mA) Line Transient Response Input Voltage Deviation (V) VIN = 4 to 5V CIN = 1uF COUT = 1uF 200 100 0 VIN = 5V, ILOAD = 1 to 150mA CIN = COUT = 1uF (Ceramic, X7R) 5 4 Output Voltage Deviation (mV) 20 0 -20 Output Voltage Deviation (mV) 20 0 -20 Time (100us/Div) Time (100us/Div) DS9001-04 March 2007 www.richtek.com 5 RT9001 Application Information Like any low-dropout regulator, the RT9001 series requires input and output decoupling capacitors. These capacitors must be correctly selected for good performance (see Capacitor Characteristics Section). Please note that linear regulators with a low dropout voltage have high internal loop gains which require care in guarding against oscillation caused by insufficient decoupling capacitance. Input Capacitor An input capacitance of 1F is required between the device input pin and ground directly (the amount of the capacitance may be increased without limit). The input capacitor MUST be located less than 1 cm from the device to assure input stability. A lower ESR capacitor allows the use of less capacitance, while higher ESR type (like aluminum electrolytic) require more capacitance. Capacitor types (aluminum, ceramic and tantalum) can be mixed in parallel, but the total equivalent input capacitance/ ESR must be defined as above to stable operation. There are no requirements for the ESR on the input capacitor, but tolerance and temperature coefficient must be considered when selecting the capacitor to ensure the capacitance will be 1F over the entire operating temperature range. Output Capacitor The RT9001 is designed specifically to work with very small ceramic output capacitors. The recommended minimum capacitance (temperature characteristics X7R or X5R) is from 1F to 4.7F ceramic capacitor between LDO output and GND for transient stability, but it may be increased without limit. Higher capacitance values help to improve transient. The output capacitor's ESR is critical because it forms a zero to provide phase lead which is required for loop stability. (When using the Y5V dielectric, the minimum value of the input/output capacitance that can be used for stable over full operating temperature range is 3.3F.) No Load Stability The device will remain stable and in regulation with no external load. This is specially important in CMOS RAM keep-alive applications. Input-Output (Dropout) Voltage A regulator's minimum input-to-output voltage differential (dropout voltage) determines the lowest usable supply voltage. In battery-powered systems, this determines the useful end-of-life battery voltage. Because the device uses a PMOS, its dropout voltage is a function of drain-to-source on-resistance, RDS(ON), multiplied by the load current : VDROPOUT = VIN - VOUT = RDS(ON) x IOUT Current Limit The RT9001 monitors output current and controls the PMOS' gate voltage to limit the output current to 600mA (MIN). The output can be shorted to ground for an indefinite period of time without damaging the part. Short-Circuit Protection The device is short circuit protected and in the event of a peak over-current condition, the short-circuit control loop will rapidly drive the output PMOS pass element off. Once the power pass element shuts down, the control loop will rapidly cycle the output on and off until the average power dissipation causes the thermal shutdown circuit to respond to servo the on/off cycling to a lower frequency. Please refer to the section on thermal information for power dissipation calculations. Capacitor Characteristics It is important to note that capacitance tolerance and variation with temperature must be taken into consideration when selecting a capacitor so that the minimum required amount of capacitance is provided over the full operating temperature range. In general, a good tantalum capacitor will show very little capacitance variation with temperature, but a ceramic may not be as good (depending on dielectric type). No Load Stability The device will remain stable and in regulation with no external load. This is specially important in CMOS RAM keep-alive applications. Aluminum electrolytics also typically have large temperature variation of capacitance value. www.richtek.com 6 DS9001-04 March 2007 RT9001 Equally important to consider is a capacitor's ESR change with temperature: this is not an issue with ceramics, as their ESR is extremely low. However, it is very important in Tantalum and aluminum electrolytic capacitors. Both show increasing ESR at colder temperatures, but the increase in aluminum electrolytic capacitors is so severe they may not be feasible for some applications. Ceramic: For values of capacitance in the 10F to 100F range, ceramics are usually larger and more costly than tantalums but give superior AC performance for by-passing high frequency noise because of very low ESR (typically less than 10m). However, some dielectric types do not have good capacitance characteristics as a function of voltage and temperature. Z5U and Y5V dielectric ceramics have capacitance that drops severely with applied voltage. A typical Z5U or Y5V capacitor can lose 60% of its rated capacitance with half of the rated voltage applied to it. The Z5U and Y5V also exhibit a severe temperature effect, losing more than 50% of nominal capacitance at high and low limits of the temperature range. X7R and X5R dielectric ceramic capacitors are strongly recommended if ceramics are used, as they typically maintain a capacitance range within 20% of nominal over full operating ratings of temperature and voltage. Of course, they are typically larger and more costly than Z5U/Y5U types for a given voltage and capacitance. Tantalum: Solid tantalum capacitors are recommended for use on the output because their typical ESR is very close to the ideal value required for loop compensation. They also work well as input capacitors if selected to meet the ESR requirements previously listed. Tantalums also have good temperature stability: a good quality tantalum will typically show a capacitance value that varies less than 10~15% across the full temperature range of 125C to -40C. ESR will vary only about 2X going from the high to low temperature limits. The increasing ESR at lower temperatures can cause oscillations when marginal quality capacitors are used (if the ESR of the capacitor is near the upper limit of the stability range at room temperature). Aluminum: This capacitor type offers the most capacitance for the money. The disadvantages are that they are larger in physical size, not widely available in surface mount, and have poor AC performance (especially at higher frequencies) due to higher ESR and ESL. Compared by size, the ESR of an aluminum electrolytic is higher than either Tantalum or ceramic, and it also varies greatly with temperature. A typical aluminum electrolytic can exhibit an ESR increase of as much as 50X when going from 25C down to -40C. It should also be noted that many aluminum electrolytics only specify impedance at a frequency of 120Hz, which indicates they have poor high frequency performance. Only aluminum electrolytics that have an impedance specified at a higher frequency (between 20kHz and 100kHz) should be used for the device. Derating must be applied to the manufacturer's ESR specification, since it is typically only valid at room temperature. Any applications using aluminum electrolytics should be thoroughly tested at the lowest ambient operating temperature where ESR is maximum. Thermal Considerations Thermal protection limits power dissipation in RT9901. When the operation junction temperature exceeds 170C, the OTP circuit starts the thermal shutdown function and turns the pass element off. The pass element turns on again after the junction temperature cools by 40C. For continuous loading operation, do not exceed absolute maximum operation junction temperature 125C. The power dissipation definition in device is: PD = (VIN - VOUT) IOUT + VIN IGND The final operating junction temperature for any set of conditions can be estimated by the following thermal equation : PD (MAX) = ( TJ (MAX) - TA ) / JA DS9001-04 March 2007 www.richtek.com 7 RT9001 Where TJ(MAX) is the maximum junction temperature of the die (125C) and TA is the ambient temperature. The junction to ambient thermal resistance (JA) for SOT-223 package at recommended minimum footprint is 160C/W (JA is layout dependent). Visit our website in which "Recommended Footprints for Soldering Surface Mount Packages" for detail. www.richtek.com 8 DS9001-04 March 2007 RT9001 Outline Dimension D D1 H C B L e e L1 A b A1 Symbol A A1 b B C D D1 e H L L1 Dimensions In Millimeters Min 1.450 0.020 0.610 3.302 6.706 6.299 2.896 2.261 0.229 1.550 0.800 Max 1.803 0.100 0.787 3.708 7.290 6.706 3.150 2.362 0.330 1.950 1.100 Dimensions In Inches Min 0.057 0.0008 0.024 0.130 0.264 0.248 0.114 0.089 0.009 0.061 0.009 Max 0.071 0.0047 0.031 0.146 0.287 0.264 0.124 0.093 0.013 0.077 0.013 3-Lead SOT-223 Surface Mount Package Richtek Technology Corporation Headquarter 5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C. Tel: (8863)5526789 Fax: (8863)5526611 Richtek Technology Corporation Taipei Office (Marketing) 8F, No. 137, Lane 235, Paochiao Road, Hsintien City Taipei County, Taiwan, R.O.C. Tel: (8862)89191466 Fax: (8862)89191465 Email: marketing@richtek.com DS9001-04 March 2007 www.richtek.com 9 |
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