THV3011_Rev.1.00_E THV3011 1ch DC/DC converter Description Features THV3011 is a synchronous buck switching regulator IC with the external High side Power MOSFET. Available high current power supply using a minimum number of external components, because any external phase compensation parts are not necessary. The bootstrap technology provides high efficiency more than 97%. Utilizing the latest and THine's unique architecture, THV3011 achieves ultra quick transient response. Soft start by SS pins makes constant and stable soft start curve not depend on the load fluctuation. THV3011 also has the Power-good function and the Off-delay function to facilitate the setting of On/Off sequence. * Synchronous rectifier DC/DC converter * Wide input voltage range : 7.5~ 28V * Output voltage range : 0.85~4.0V * Large Load current (depend on external FET) * Ultra quick transient response * Feed back voltage accuracy : 1% * 360kHz/500kHz programmable oscillation frequency * Over current protection * Short circuit protection (latch function) * Undervoltage lockout function * Power-good function * Off Delay function * Programmable soft start * Thermal shutdown * Small 4.4x5mm body TSSOP 16pin Applications * Micro processor core/ASIC/FPGA/DSP/DDR SDRAM/DDRII SDRAM power supply Input CTL input CTL AVCC PSI FSET PSI input OFFDELAY SS REG PGOOD Power Good output GND BOOT FB Output HG CSN LL CSP LG Typical Applications Copyright(c)2009 THine Electronics, Inc. 1/12 THine Electronics, Inc. THV3011_Rev.1.00_E Absolute maximum ratings Parameter Symbol Rating Units Vcc -0.3 ~30 V PSI, FB, OFFDELAY, CSP, CSN, SS VL_in_1 -0.3 ~ 5.5 V FSET VL_in_2 -0.3 ~ REG+0.3 V CTL Vctl -0.3 ~ 30 V Vpgood -0.3 ~ 5.5 V Vboot -0.3 ~ 35 V Between BOOT and LL Vll -0.3 ~ 5.5 V Power Dissipation Pd 1.0 W Junction Temperature Tj +125 C Operating Temperature Ta -40 ~ +85 C Storage Temperature Tstg -55 ~ +150 C Lead Temperature for Soldering Tlead 255 +5 C/-0C/ 10sec C AVCC PGOOD BOOT Recommended Operation Conditions Parameter Symbol Min Max Units Input Supply Voltage AVCC 7.5 28 V VO 0.85 4.0 V Output voltage O FFD E LA Y C TL AVCC PG O O D CTL REG 5V R egulator Pow er LinkerTM U V LO Pow er G ood REG C SP TSD O CP FB TSD C SN BOOT CTL O CP TSD SCP SS LL REG M ain C ontrol FB HG Level shift REG LG GND Short circuit protection SCP Frequecy setup FSET PSI Block Diagram Copyright(c)2009 THine Electronics, Inc. 2/12 THine Electronics, Inc. THV3011_Rev.1.00_E Electrical Characteristics (AVCC=12V, Vctl=3.3V, Ta=25C, unless otherwise noted.) Parameter Symbol Conditions Min Operation current Icc Stand-by current Ist Vctl=0V Regulator output voltage Vreg Ireg=0.1mA Regulator maximum load current Ireg Oscillation Frequency 1 Fosc1 FSET=REG, Vpsi=REG 320 360 400 kHz Oscillation Frequency 2 Fosc2 FSET=OPEN, Vpsi=REG 440 500 560 kHz Minimum operation frequency Foscmin Vpsi=0V Minimum On pulse 4.75 Typ Max Units 1.5 3.0 mA 20 40 uA 5.00 5.25 V 30 mA 8 kHz tonmin 100 nsec Minimum Off pulse toffmin 250 nsec Feed back voltage Vfb Feed back bias current Ivoset Current sense offset voltage dVcs SCP threshold voltage Vscp 0.6 V SCP delay time tscp 4.1 msec Low gate driver high side On resistance RonLH ILH=20mA 3.5 Low gate driver low side On resistance RonLL ILL=20mA 2.0 High gate driver high side On resistance RonHH IHH=20mA 3.5 High gate driver low side On resistance RonHL IHL=20mA 1.5 Under voltage threshold Vuvlo Under voltage hysteresis Vuvlo-h Soft start time tss PSI high input voltage Vpsih PSI low input voltage Vpsil PSI input bias current Ipsi Vpsi=5V 12.5 uA Output pull-down On resistance RonCSP Vctl=0V 35 Copyright(c)2009 THine Electronics, Inc. CSN=1.8V 0.8415 0.850 0.8585 V -50 0 50 nA 50 60 70 mV 6.0 6.5 7.0 0.17 Css=1000pF 0.300 0.425 V 0.550 4.2 msec V 0.3 3/12 V V THine Electronics, Inc. THV3011_Rev.1.00_E Parameter Symbol CTL ON threshold voltage Vctlon CTL OFF threshold voltage Vctloff CLT input current Ictl Vctl=3.3V 1.5 Off delay time toffdelay Coffdelay=1000pF 0.75 Power good threshold voltage Vpgood Power good hysteresis voltage Vpgood-h Power good output ON resistance Ronpgood Vpgood=0.1V Power good output off leak current Ioffpgood Vpgood=5V Copyright(c)2009 THine Electronics, Inc. Conditions Min Typ Max 1.5 0.65 V 0.70 0.7 V 3.0 uA msec 0.75 100 1.0 4/12 Units V mV 2.0 k 1 uA THine Electronics, Inc. THV3011_Rev.1.00_E Pin Description Pin Symbol Function 1 AVCC 2 PSI 3 BOOT 4 LL 5 FSET 6 HG 7 OFFDELAY 8 LG 9 GND 10 PGOOD 11 CSN Current sense negative input. 12 CSP Current sense positive input. When 60mV(typ) or more of voltage difference is detected between CSP pin and CSN pin, the voltage on LL pin falls down to the low level. When the voltage on CTL pin is low level, the transistor turns to the On state and pull-down the output voltage. 13 FB Output voltage feedback. 14 SS Soft start time setting pin. Connect a capacitor to the GND. 15 CTL Enable pin. Active at high level. CTL pin can be set at the voltage higher than AVCC. 16 REG 5V regulator output. Internal power supply for Bootstrap and control circuit. Connect a capacitor to the GND. Power supply for control block. Power standby Indication. Applying low level voltage to this pin, IC goes into the light load mode. Applying high level, IC operates in the synchronous mode. Bootstrap pin. Bias input for high side power MOSFET driver. Switching output. Connect to the inductor node. Oscillation frequency setting pin. Connect to REG for 360kHz, leave it open for 500kHz. High side gate drive output. Shut-off delay time setting. Connect a capacitor to the GND. Low gate drive output. Ground. Power good output. PGOOD outputs High level, when CTL pin is High level and output voltage is 82.4% or more of set voltage. Copyright(c)2009 THine Electronics, Inc. 5/12 THine Electronics, Inc. THV3011_Rev.1.00_E 0.8 1.0 1.2 1.4 0.6 0.2 0.4 0 Power Dissipation [W] Power Dissipation -40 -20 0 20 40 60 80 100 120 140 160 Operating Temperature [C] Copyright(c)2009 THine Electronics, Inc. 6/12 THine Electronics, Inc. THV3011_Rev.1.00_E Functional Description Undervoltage Lockout (UVLO) THV3011 has the built-in Undervoltage Lockout circuit to prevent the device from misoperation at low input voltages. UVLO stops switching operation and soft start operation, until AVCC voltage rises up to 6.5V(typ). Having the hysteresis circuit, UVLO stops switching operation and start to discharge SS pins, when AVCC voltage falls down under 6.33V(typ). Thermal Shut Down (TSD) THV3011 has the built-in Thermal Shutdown circuit to prevent damages caused by excessive heat. When the junction temperature T j reaches 125C (typ), TSD circuit stops switching operation and 5V regulator operation. When T j falls down (20 C typical hysteresis), the output voltage will recover. Soft Start (SS) THV3011 has soft start circuit allows a gradual rising of output voltage to prevent overshooting of output voltage and high inrush current during start up. When UVLO is released and CTL pin is turned High level, an internal 2uA constant current source starts to charge an external capacitor connected to SS pin. Css connected between SS pin and GND is determined by soft start time. Soft start time is the period of charging SS pin to the reference voltage 0.85V with 2uA constant current source, and calculated as following : Tss = C SS x0.85 V = 0.425x 10 6 xCss (sec) 2u When Tss=4.25msec, Css=0.01uF. Over Current Protection (OCP) THV3011 has the built-in Over Current Protection circuit to limit over current caused by abnormal load current, etc. When a voltage difference between CSN pin and CSP pin exceeds 60mV(typ), OCP detects over current. OCP circuit monitors the bottom current of inductor to detect over current. When the voltage between CSN pin and CSP pin drops below 60mV(typ), High side FET generates on-pulse. Therefore the average value of ripple current I rip is added to the output current as following : I OUT = 60 m V RS + 1 I RIP (A ) 2 IL Iout 60mV Rs Short Circuit Protection (SCP) SCP circuit is activated, when the output voltage drop continues. After soft start operation is finished and feedback voltage drops less than 0.6V(typ), SCP detects a short circuit. If such condition continues for more than 4.1msec(typ), the device stops switching operation and go into latch state. The latch state will be released by restarting to apply voltage on CTL pin or AVCC pin. Copyright(c)2009 THine Electronics, Inc. 7/12 THine Electronics, Inc. THV3011_Rev.1.00_E Power Good (PGOOD) Power Good is a function to notify external circuits that the output voltage has reached to the normal voltage, and available as a sequence control or a reset signal for micro-processor. When the output voltage exceeds 82.4%(typ) of the user defined voltage, PGOOD pin is turned from Low level to High level. When the output voltage drops(70.6% typical hysteresis), PGOOD pin is turned to Low level. When CTL pin is turned Low level, PGOOD pin is also turned Low level independent of the output voltage. Please beware of following matters, when PGOOD pin is pulled-up to the external power source. The output transistor of PGOOD pin becomes active only when higher voltage than 2.5V is applied to AVCC. Therefore, PGOOD pin operates as follows. 1.When AVCC voltage is less than 2.5V, PGOOD pin is High level even though the output voltage doesn't reach to the user defined voltage. 2.When AVCC voltage exceeds 2.5V, PGOOD pin is turned Low level. 3.When AVCC voltage reaches to 82.4%(typ) of the user defined voltage after the release of UVLO. Off Delay (OFFDELAY) Off Delay function works to set the delay time from when Low level voltage is applied on CTL pin till the device goes into standby state. The delay time can be set by connecting a capacitor between OFFDELAY pin and GND. CTL OFFDELAY 2.0V VOUT TOD The delay time TOD is the period that OFFDELAY pin is discharged with 4uA(typ) constant current source from 5.0V to threshold 2.0V(typ), and is calculated as follows. TOD = ( ) COFFD x VREG - 2.0V 7.5 x 106 x COFFD (sec) 4.0uA When off delay time = 7.5msec,COFFD Copyright(c)2009 THine Electronics, Inc. = 0.01uF. 8/12 THine Electronics, Inc. THV3011_Rev.1.00_E Setting the Output Voltage THV3011 detects the output ripple voltage. When the output voltage reaches to the voltage defined by R 2 + R 3 (between output capacitor and FB pin) and R 4 ( between FB pin and GND) as following formula, LL pin is turned from Low to High level for a constant time. VOUT _ bottom = R + R3 V FB x 1 + 2 R4 DC output voltage at the continuous mode is calculated as following formula, adding the average of the ripple voltage ( I x R ). rip ESR R +R 1 VOUT =1+ 2 3 x0.85V + I RIP RESR 2 R4 Output R2 R3 FB R4 GND Power Stand-by Indicator (PSI) Continuous/Light Load modes are selectable by PSI pin, High or Low. High = continuous mode, Low = light load mode. LG pin is held Low and stops the operation of Low side FET in the light load mode. Output Pull-Down THV3011 has a built-in Output Pull-Down function to shorten the output fall time. When CTL pin is turned to Low, an internal transistor connected between CSP pin and GND start to discharge the output capacitor. Setting the Oscillation Frequency (FSET) User can choose Oscillation frequency 360kHz or 500kHz by adjusting the voltage on FSET pin. High = 360kHz(typ), Open = 500kHz(typ). Copyright(c)2009 THine Electronics, Inc. 9/12 THine Electronics, Inc. THV3011_Rev.1.00_E Application Example Ex.) VCC=12V, VOUT=1.2 PGOOD VCC=12V R5 47kOhm GND C5 0.01uF C3 10uF/25V U1 THV3011 LG Q1 PGOOD OFFDELAY PGOOD OFFDELAY Q2 R2 150Ohm R3 3.9kOhm R4 10kOhm CSN CSN HG PVCC CSP CSP FSET FSET FB FB LL LL SSSS BOOT BOOT CTL CTL C6 0.01uF REG REG C4 1uF CTL Copyright(c)2009 THine Electronics, Inc. L1 2.5uH C2 0.1uF R1 12mOhm VOUT=1.2V C1 220uF/4V PSI PSI AVCC PSI 10/12 THine Electronics, Inc. THV3011_Rev.1.00_E Package Outline 6.40 +0.10/-0.10 4.40 +0.10/-0.10 TSSOP16 Pins 1.10MAX 0.90 +0.05/-0.05 0.65 0.22 0.10 S 5.00 +0.10/-0.10 0-10(deg) 0.25 0.60 +0.10/-0.10 0.10 +0.05/-0.05 1.00 The details of lead edge Unit : mm Copyright(c)2009 THine Electronics, Inc. 11/12 THine Electronics, Inc. THV3011_Rev.1.00_E Notices and Requests 1. The product specifications described in this material are subject to change without prior notice. 2. The circuit diagrams described in this material are examples of the application which may not always apply to the customer's design. We are not responsible for possible errors and omissions in this material. Please note if errors or omissions should be found in this material, we may not be able to correct them immediately. 3. This material contains our copy right, know-how or other proprietary. Copying or disclosing to third parties the contents of this material without our prior permission is prohibited. 4. Note that if infringement of any third party's industrial ownership should occur by using this product, we will be exempted from the responsibility unless it directly relates to the production process or functions of the product. 5. This product is presumed to be used for general electric equipment, not for the applications which require very high reliability (including medical equipment directly concerning people's life, aerospace equipment, or nuclear control equipment). Also, when using this product for the equipment concerned with the control and safety of the transportation means, the traffic signal equipment, or various Types of safety equipment, please do it after applying appropriate measures to the product. 6. Despite our utmost efforts to improve the quality and reliability of the product, faults will occur with a certain small probability, which is inevitable to a semi-conductor product. Therefore, you are encouraged to have sufficiently redundant or error preventive design applied to the use of the product so as not to have our product cause any social or public damage. 7. Please note that this product is not designed to be radiation-proof. 8. Customers are asked, if required, to judge by themselves if this product falls under the category of strategic goods under the Foreign Exchange and Foreign Trade Control Law. 9. The product or peripheral parts may be damaged by a surge in voltage over the absolute maximum ratings or malfunction, if pins of the product are shorted by such as foreign substance. The damages may cause a smoking and ignition. Therefore, you are encouraged to implement safety measures by adding protection devices, such as fuses. THine Electronics, Inc. E-mail : sales@thine.co.jp Copyright(c)2009 THine Electronics, Inc. 12/12 THine Electronics, Inc.