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| TS3406 600mA / 1.5MHz Synchronous Buck Converter SOT-25 Pin Definition: 1. EN 2. Ground 3. Switching Output 4. Input 5. Feedback General Description The TS3406 is a high efficiency monolithic synchronous buck regulator using a 1.5MHz constant frequency, current mode architecture. The device is available in an adjustable version. Supply current with no load is 300A and drops to <1A in shutdown. The 2.5V to 5.5V input voltage range makes the TS3406 ideally suited for single Li-Ion batterypowered applications. 100% duty cycle provides low dropout operation, Switching frequency is internally set at 1.5MHz, allowing the use of small surface mount inductors and capacitors. The internal synchronous switch increases efficiency and eliminates the need for an external Schottky diode. Low output voltages are easily supported with the 0.6V feedback reference voltage. The TS3406 can supply 600mA of load current at VCC=3V. Features High Efficiency: Up to 96% 2.5V to 5.5V Input Voltage Range Short Circuit Protection (SCP) 1.5MHz Constant Frequency Operation Low Dropout Operation: 100% Duty Cycle 0.6V Reference Allows Low Output Voltages 600mA Output Current at Vcc=3V Low Quiescent Current: 300uA No Schottky Diode Required in Application 1uA Shutdown Current Current Mode Operation for Excellent Line and Load Transient Response Application Cellular Phones Digital Still Cameras Portable Electronics USB Devices Pin Description Name EN GND Description Power-off pin H normal operation L Step-down operation stopped (All circuits deactivated) Ground pin Switch output pin. Connect external inductor here. Minimize trace area at this pin to reduce EMI. IC power supply pin Output Feedback pin Ordering Information Part No. TS3406CX5 RF Package SOT-25 Packing 3Kpcs/ 7" Reel SW VCC FB Application Circuit 1/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter Absolute Maximum Rating Characteristics VIN Pin Voltage Feedback Pin Voltage RUN Pin Voltage Switch Pin Voltage Peak SW Sink & Source Current Operating Supply Voltage Power Dissipation Storage Temperature Range Operating Temperature Range Junction Temperature Thermal Resistance from Junction to case Thermal Resistance from Junction to ambient Symbol VIN VFB VRUN VSW IPSW VOP PD TST TOP TJ JC JA 2 Rating Gnd - 0.3 to Gnd + 6 Gnd - 0.3 to VIN + 0.3 Gnd - 0.3 to VIN + 0.3 Gnd - 0.3 to VIN + 0.3 1.5 +2.5 to +5.5 (TJ-TA) / JA -40 to +150 -40 to +85 +125 110 250 Unit V V V V A V mW o o o o o C C C C/W C/W Note1: JA is measured with the PCB copper area of approximately 1 in (Multi-layer). that need connect to Gnd pin of the TS3406. Electrical Specifications (Ta = 25oC, VIN=VRUN=3.6V unless otherwise noted) Characteristics Feedback Voltage Quiescent Current Feedback Bias Current Shutdown Supply Current Maximum Output Current Current Limit Line Regulation Load Regulation Oscillation Frequency Frequency of SCP RDS(ON) of P-CH MOSFET RDS(ON) of N-CH MOSFET Efficiency RUN Threshold RUN Pin Input Current Symbol VFB ICCQ IFB ISD IOUT(MAX) ILIMIT VOUT/VOUT VOUT/VOUT FOSC FOSC1 RDSON RDSON EFFI VRUN IRUN Conditions TA =25 ,IOUT=50mA VFB=0.5V VFB =0.65V VRUN =0V VCC =3V VCC =3V VCC = 2.5V~5.5V IOUT = 0.01 to 0.6A SW pin SW pin ISW = 300mA ISW = -300mA VOUT=1.8V,IOUT= 0.5A Min 0.588 ---0.6 0.85 --1.2 ----0.3 -- Typ 0.6 270 -0.08 -1.2 0.5 0.4 1.5 300 0.30 0.20 89 0.45 0.1 Max 0.612 400 30 1 --1 0.6 1.8 -0.50 0.45 -1.3 1 Units V uA nA uA A A % % MHz KHz % V uA Note2: 100% production test at +25C. Specifications over the temperature range are guaranteed by design and characterization. 2/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter Block Diagram Function Description Operation TS3406 is a monolithic switching mode Step-Down DC-DC converter. It utilizes internal MOSFETs to achieve high efficiency and can generate very low output voltage by using internal reference at 0.6V. It operates at a fixed switching frequency, and uses the slope compensated current mode architecture. This Step-Down DC-DC Converter supplies 600mA output current at VCC = 3V with input voltage range from 2.5V to 5.5V. Current Mode PWM Control Slope compensated current mode PWM control provides stable switching and cycle-by-cycle current limit for excellent load and line responses and protection of the internal main switch (P-CH MOSFET) and synchronous rectifier (N-CH MOSFET). During normal operation, the internal P-CH MOSFET is turned on for a certain time to ramp the inductor current at each rising edge of the internal oscillator, and switched off when the peak inductor current is above the error voltage. The current comparator, ICOMP, limits the peak inductor current. When the main switch is off, the synchronous rectifier will be turned on immediately and stay on until either the inductor current starts to reverse, as indicated by the current reversal comparator, IZERO, or the beginning of the next clock cycle. The OVDET comparator controls output transient overshoots by turning the main switch off and keeping it off until the fault is no longer present. Idle Mode Operation At very light loads, the TS3406 automatically enters Idle Mode. In the Idle Mode, the inductor current may reach zero or reverse on each pulse. The PWM control loop will automatically skip pulses to maintain output regulation. The bottom MOSFET is turned off by the current reversal comparator, IZERO and the switch voltage will ring. This is discontinuous mode operation, and is normal behavior for the switching regulator. When the input voltage decreases toward the value of the output voltage, the TS3406 allows the main switch to remain on for more than one switching cycle and increases the duty cycle until it reaches 100%. The output voltage then is the input voltage minus the voltage drop across the main switch and the inductor. At low input supply voltage, the RDS(ON) of the P-CH MOSFET increases, and the efficiency of the converter decreases. Caution must be exercised to ensure the heat dissipated not to exceed the maximum junction temperature of the IC. 3/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter Function Description (Continue) Maximum Load Current The TS3406 will operate with input supply voltage as low as 2.5V, however, the maximum load current decreases at lower input due to large IR drop on the main switch and synchronous rectifier. The slope compensation signal reduces the peak inductor current as a function of the duty cycle to prevent sub-harmonic oscillations at duty cycles greater than 50%. Conversely the current limit increases as the duty cycle decreases. Application Information Setting the Output Voltage Application circuit item shows the basic application circuit with TS3406 adjustable output version. The external resistor sets the output voltage according to the following equation: Table 1: Resistor Select for Output Voltage Setting VOUT R2 R1 1.2V 300K 300K 1.5V 300K 450K 1.8V 300K 600K 2.5V 300K 950K Inductor Selection For most designs, the TS3406 operates with inductors of 1H to 4.7H. Low inductance values are physically smaller but require faster switching, which results in some efficiency loss. The inductor value can be derived from the following equation: Table 2: Inductor Select for Output Voltage Setting (Vcc-3.6V) VOUT 1.2V 1.5V 1.8V 2.5V Inductor 2.7uH 2.7uH 2.7uH 2.2uH Part Number 7440430027 7440430027 WE-TPC Note: Part Type MH or M (www.we-online.com) 7440430027 7440430022 Where is inductor Ripple Current. Large value inductors lower ripple current and small value inductors result in high ripple currents. Choose inductor ripple current approximately 35% of the maximum load current 600mA, IL=210mA. For output voltages above 2.0V, when light-load efficiency is important, the minimum recommended inductor is 2.2H. For optimum voltage-positioning load transients, choose an inductor with DC series resistance in the 50m to 150m range. For higher efficiency at heavy loads (above 200mA), or minimal load regulation (but some transient overshoot), the resistance should be kept below 100m. The DC current rating of the inductor should be at least equal to the maximum load current plus half the ripple current to prevent core saturation (600mA+105mA). Input Capacitor Selection The input capacitor reduces the surge current drawn from the input and switching noise from the device. The input capacitor impedance at the switching frequency shall be less than input source impedance to prevent high frequency switching current passing to the input. A low ESR input capacitor sized for maximum RMS current must be used. Ceramic capacitors with X5R or X7R dielectrics are highly recommended because of their low ESR and small temperature coefficients. A 4.7F ceramic capacitor for most applications is sufficient. 4/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter Application Information (Continue) Output Capacitor Selection The output capacitor is required to keep the output voltage ripple small and to ensure regulation loop stability. The output capacitor must have low impedance at the switching frequency. Ceramic capacitors with X5R or X7R dielectrics are recommended due to their low ESR and high ripple current. Compensation Capacitor Selection The compensation capacitors for increasing phase margin provide additional stability. It is required and more than 22p, Refer to Demo Board Schematic, The optimum values for C4 is 47pF. 5/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter SOT-25 Mechanical Drawing DIM A+A1 B C D E E H L 1 S1 SOT-25 DIMENSION MILLIMETERS INCHES MIN MAX MIN MAX. 0.09 1.25 0.0354 0.0492 0.30 0.50 0.0118 0.0197 0.09 0.25 0.0035 0.0098 2.70 3.10 0.1063 0.1220 1.40 1.80 0.0551 0.0709 1.90 BSC 0.0748 BSC 2.40 3.00 0.09449 0.1181 0.35 BSC 0.0138 BSC 0 10 0 10 0.95 BSC 0.0374 BSC 6/7 Version: A07 TS3406 600mA / 1.5MHz Synchronous Buck Converter Notice Specifications of the products displayed herein are subject to change without notice. TSC or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies. Information contained herein is intended to provide a product description only. No license, express or implied, to any intellectual property rights is granted by this document. Except as provided in TSC's terms and conditions of sale for such products, TSC assumes no liability whatsoever, and disclaims any express or implied warranty, relating to sale and/or use of TSC products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right. The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications. Customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify TSC for any damages resulting from such improper use or sale. 7/7 Version: A07 |
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