PDF RT8298 Data sheet ( Hoja de datos )

Número de pieza	RT8298
Descripción	600kHz Step-Down Converter
Fabricantes	Richtek
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No Preview Available ! ® RT8298 6A, 24V, 600kHz Step-Down Converter with Synchronous Gate Driver General Description The RT8298 is a synchronous step-down DC/DC converter with an integrated high side internal power MOSFET and a gate driver for a low side external power MOSFET. It can deliver up to 6A output current from a 4.5V to 24V input supply. The RT8298's current mode architecture allows the transient response to be optimized over a wider input voltage and load range. Cycle-by-cycle current limit provides protection against shorted outputs and soft-start eliminates input current surge during start-up. The RT8298 is synchronizable to an external clock with frequency ranging from 300kHz to 1.5MHz. The RT8298 is available in WDFN-14L 4x3 and SOP-8 (Exposed Pad) packages. Applications z Point of Load Regulator in Distributed Power System z Digital Set top Boxes z Personal Digital Recorders z Broadband Communications z Flat Panel TVs and Monitors Features z 4.5V to 24V Input Voltage Range z 6A Output Current z 45mΩ Internal High Side N-MOSFET z Current Mode Control z 600kHz Switching Frequency z Adjustable Output from 0.8V to 15V z Up to 95% Efficiency z Internal Compensation z Stable with Ceramic Capacitors z Synchronous External Clock : 300kHz to 1.5MHz z Cycle-by-Cycle Current Limit z Input Under Voltage Lockout z Output Under Voltage Protection z Power Good Indicator z Thermal Shutdown Protection z RoHS Compliant and Halogen Free http://www.DataSheet4U.net/ Simplified Application Circuit RT8298 VIN VIN BOOT CIN SW Power Good VCC CVCC PGOOD BG FB Chip Enable EN/SYNC GND CBOOT L Q1 VOUT R1 COUT R2 Copyright ©2011 Richtek Technology Corporation. All rights reserved. DS8298-01 November 2011 is a registered trademark of Richtek Technology Corporation. www.richtek.com 1 datasheet pdf - http://www.DataSheet4U.net/ 1 page RT8298 Absolute Maximum Ratings (Note 1) z Supply Input Voltage, VIN ------------------------------------------------------------------------------------------ –0.3V to 26V z Switching Voltage, SW -------------------------------------------------------------------------------------------- –0.3V to (VIN + 0.3V) z BOOT to SW --------------------------------------------------------------------------------------------------------- –0.3V to 6V z All Other Voltage ---------------------------------------------------------------------------------------------------- −0.3V to 6V z Power Dissipation, PD @ TA = 25°C WDFN-14L 4x3 ------------------------------------------------------------------------------------------------------- 1.667W SOP-8 (Exposed Pad) --------------------------------------------------------------------------------------------- 1.333W z Package Thermal Resistance (Note 2) WDFN-14L 4x3, θJA ------------------------------------------------------------------------------------------------- 60°C/W WDFN-14L 4x3, θJC ------------------------------------------------------------------------------------------------- 7.5°C/W SOP-8 (Exposed Pad), θJA ---------------------------------------------------------------------------------------- 75°C/W SOP-8 (Exposed Pad), θJC --------------------------------------------------------------------------------------- 15°C/W z Lead Temperature (Soldering, 10 sec.) ------------------------------------------------------------------------- 260°C z Junction Temperature ----------------------------------------------------------------------------------------------- 150°C z Storage Temperature Range -------------------------------------------------------------------------------------- –65°C to 150°C z ESD Susceptibility (Note 3) HBM (Human Body Mode) ---------------------------------------------------------------------------------------- 2kV MM (Machine Mode) ------------------------------------------------------------------------------------------------ 200V Recommended Operating Conditions (Note 4) z Supply Input Voltage, VIN ------------------------------------------------------------------------------------------ 4.5V to 24V z Junction Temperature Range -------------------------------------------------------------------------------------- −40°C to 125°C z Ambient Temperature Range ----------------------------------------htt-p://www-.Data-Sheet4-U.net/------------------------------------------ −40°C to 85°C Electrical Characteristics (VIN = 12V, TA = 25°C, unless otherwise specified) Parameter Symbol Test Conditions Shutdown Supply Current Supply Current Feedback Reference Voltage Feedback Current High-Side Switch On Resistance High-Side Switch Current Limit VREF IFB RDS(ON) VEN = 0V VEN = 3V, VFB = 1V 4.5V ≤ VIN ≤ 24V VFB = 0.8V BOOT − SW = 4.8V Oscillation Frequency Short Circuit Oscillation Frequency Maximum Duty Cycle Minimum On-Time Input Under Voltage Lockout Threshold fOSC1 fOSC2 DMAX tON VUVLO VFB = 0V VFB = 0.6V VFB = 1V Input Under Voltage Lockout Threshold Hysteresis ΔVUVLO EN Threshold Voltage Logic-High Logic-Low VIH VIL Min Typ -- 1 -- 0.9 0.796 0.808 -- 10 -- 45 -- 10 -- 600 -- 190 -- 90 -- 100 4 4.2 Max -- -- 0.82 -- -- -- -- -- -- -- 4.4 Unit μA mA V nA mΩ A kHz kHz % ns V -- 400 -- mV 2 -- 5.5 V -- -- 0.4 Copyright ©2011 Richtek Technology Corporation. All rights reserved. DS8298-01 November 2011 is a registered trademark of Richtek Technology Corporation. www.richtek.com 5 datasheet pdf - http://www.DataSheet4U.net/ 5 Page RT8298 Application Information Output Voltage Setting The resistive divider allows the FB pin to sense the output voltage as shown in Figure 1. VOUT FB RT8298 GND R1 R2 Figure 1. Output Voltage Setting The output voltage is set by an external resistive voltage divider according to the following equation : VOUT = VREF ⎛⎜⎝1+ R1 R2 ⎞⎟⎠ Where VREF is the feedback reference voltage (0.808V typ.). External Bootstrap Diode Connect a 1μF low ESR ceramic capacitor between the BOOT pin and SW pin. This capacitor provides the gate driver voltage for the high side MOSFET. It is recommended to add an external bootstrap diode between an external 5V and BOOT pin for efficiency improvement when input voltage is lower than 5.5V or duty ratio is higher than 65% .The bootstrap diode can be a low cost one such as IN4148 or BAT54. The external 5V can be a 5V fixed input from system or a 5V output of the RT8298. Note that the external boot voltage must be lower than 5.5V. 5V BOOT RT8298 SW 1µF Figure 2. External Bootstrap Diode Chip Enable Operation The EN pin is the chip enable input. Pulling the EN pin low (<0.4V) will shutdown the device. During shutdown mode, the RT8298 quiescent current drops to lower than 3μA. Driving the EN pin high (2V < EN < 5.5V) will turn on Copyright ©2011 Richtek Technology Corporation. All rights reserved. DS8298-01 November 2011 the device again. For external timing control, the EN pin can also be externally pulled high by adding a REN resistor and CEN capacitor from the VIN pin (see Figure 3). EN REN VIN CEN EN RT8298 GND Figure 3. Enable Timing Control An external MOSFET can be added to implement digital control on the EN pin, as shown in Figure 4. In this case, a 100kΩ pull-up resistor, REN, is connected between VIN pin and the EN pin. MOSFET Q2 will be under logic control to pull down the EN pin. REN 100k VIN EN EN Q2 RT8298 GND Figure 4. Digital Enable Control Circuit The chip starts to operate when VIN rises to 4.2V (UVLO threshold). http://www.DataSheet4U.net/ During the VIN rising period, if an 8V output voltage is set, VIN is lower than the VOUT target value and it may cause the chip to shut down. To prevent this situation, a resistive voltage divider can be placed between the input voltage and ground and connected to the EN pin to adjust enable threshold, as shown in Figure 5. For example, the setting VOUT is 8V and VIN is from 0V to 12V, when VIN is higher than 10V, the chip is triggered to enable the converter. Assume REN1 = 50kΩ. Then, REN2 = (REN1 (VIN_S x − VEN_T ) VEN_T ) where VEN_T is the enable comparator's logic-high reference threshold voltage (1.7V) and VIN_S is the target turn on input voltage (10V in this example). According to the equation, the suggested resistor R EN2 is 10.2kΩ. REN1 VIN REN2 EN RT8298 GND Figure 5. Resistor Divider for Lockout Threshold Setting is a registered trademark of Richtek Technology Corporation. www.richtek.com 11 datasheet pdf - http://www.DataSheet4U.net/ 11 Page

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