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| MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER DESCRIPTION M62212 is designed as a general purpose DC-DC converter. This small 8 pin package contains many functions allowing simpler peripheral circuits and compact set design. The output transistor is open collector and emitter follower type. This makes the control STEP-UP,STEP-DOWN and INVERTING converter. PIN CONFIGURATION(TOP VIEW) Collector output 1 Emitter 2 output GND 3 4 8 7 6 5 VCC IN FB DTC M62212P / FP / GP FEATURE * Wide operation power supply voltage range *******2.5 ~ 18V * Low power consumption************************1.3mA typ * High speed switching is possible.(300kHz) * Output short protection circuit and ON/OFF control are used. The dead-time control and the soft-start operation are possible * Package variation : 8pin DIP/SOP/SSOP8 Cosc OUTLINE 8P2S-A (FP) 8P2X (GP) 8P4 (P) APPLICATIONS General electric products, DC-DC converter BLOCK DIAGRAM VCC 8 UVLO VTH : 2.3V Collector output COSC 4 OSC VCC PWM Comp 1 2 Emitter output OP Amp IN 7 1.25V VCC 1.86V Short protection circuit 1.25V R SQ 1.15V 0.3V 6 FB 5 DTC 3 GND (1/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER ABSOLUTE MAXIMUM RATINGS (Ta=25C, unless otherwise noted) Symbols Vcc Vo Io Pd Ktheta Topr Tstg Items Power supply voltage Output voltage Output current Power dissipation Thermal derating ratio Operating ambient temperature Storage temperature Conditions Ratings 19 19 150 Units V V mA mW C C Ta=25C Ta>25C 625 (P) 360(FP) 250(GP) -20C ~ +85 -40C ~ +125 5.00 (P) 2.88 (FP) 2.00(GP) mW/C Electrical Characteristics ( Ta=25C, Vcc =12V, Cosc=100pF unless otherwise noted ) Block All device Std. voltage section Symbol VCC I CC ST V REF L INE IB AV Items Range of power supply voltage Standby current Standard voltage Line regulation Input bias current Open loop gain Unity gain bandwidth Output high voltage Output low voltage Output sink current Output source current Oscillation frequency Upper limit voltage of oscillation waveform Lower limit voltage of oscillation waveform Test condition Limits Min 2.5 Typ 1.3 1.19 1.25 5 80 0.6 1.82 6 -60 110 1.0 0.45 -40 10 -30 2.62 400 Max 18 1.8 1.31 12 500 Units V mA V mV nA dB MHz V mV mA uA kHz V V uA uA Output "OFF" status Voltage follower VCC=2.5 ~ 18V Error amp. section GB VOM + VOM + I OM I OM - VFB=1.86V VIN =1V f OSC Oscillator section VOSCH VOSCL I OSC CH I OSC DIS1 VTH ON Cosc charge current Cosc discharge current 1 Start-up threshold voltage Shut-down threshold voltage Hysteresis VIN =1V VIN =1V VHYS = VTHON - VTHOFF 20 2.2 2.3 2.25 50 2.4 V V UVLO section VTH OFF VHYS 80 mV (2/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER Electrical Characteristics ( Ta=25C, Vcc =12V, Cosc=100pF unless otherwise noted ) Block Symbol VTH FB VTH DTC Items FB threshold voltage Latch mode "H" threshold voltage Latch mode "L" threshold voltage DTC charge current when start-up DTC discharge current 1 Test condition VIN =1V,VDTC=0.7V VIN =1V,VFB =2.11V VIN =1V,VFB =2.11V VDTC=0.7V,VFB =2.11V VDTC=0.7V,VFB =2.11V Limits Min Typ 1.86 1.15 0.3 -45 50 -10 15 -1 0.3 1.6 1 1.1 Max Units V V V A A A A A V V Short protection circuit VTL DTC I CH1 I DIS1 I CH2 I DIS2 I CL DTC charge current when stable state VDTC=0.7V,VFB = 0.7V DTC discharge current 2 VDTC=0.2V,VFB =2.11V Output section Collector output leak current Collector output saturation voltage 1 Collector output saturation voltage 2 VCE=18V , VCC=18V Emitter GND, IC=150mA,VE=0V Emitter follower, IE=50mA,VC=12V VSAT1 VSAT2 (3/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER 1. Application Circuit (STEP-DOWN converter with current buffer transistor) L VIN CIN 8 1 VOUT D R1 R2 4 COUT COSC 7 6 M62212 2 5 3 (4/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER 2. FUNCTION DESCRIPION 1) Soft Start (The peripheral circuit is shown in Fig.1) When the power is turned ON, input terminal IN is at 0V level. Therefore, the FB terminal is fixed to High level. The DTC terminal goes up gradually starting from 0V due to the internal charge current and the external CDTC. When the level of DTC terminal reaches the lower limit of the triangular wave of the oscillator, PWM comparator and the output circuit go into operation causing the output voltage, "Vo" of the DC-DC converter to rise. The charge current is designed to be approximately 45A. FB DTC 1.0V OSC 0.45V OFF External Tr collector ON Fig.2 2) DTC The dead time control is set by installing a resistor between the DTC terminal and GND. However, the DTC terminal serves as the short protection circuit also. Therefore, its set up depends on whether the short protection circuit is used and not. (When the short protection circuit is used) At this time, the charge current for DTC is approximately 10A . Therefore, RDTC should be set to 40K ~ 110K. (When the short protection circuit is not used) At this time, the charge current for DTC is approximately 45A. Therefore, RDTC is set to 12KA25K. (5/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER 3) Short Protection Circuit The Short Protection Circuit used the timer latch system. It is determined by setting the capacity used for the soft start connected to the DTC terminal. Fig.3 shows the short protection circuit and the timing chart for various modes. When the power is turned on, the FB terminal goes high (approx. 2.3V) and the DTC terminal goes low (goes up slowly from 0V). Thus, approximately 45A current will flow when SW1:ON and SW2:OFF. The potential, namely the potential of the FB terminal is in the amplitude of the triangular wave, SW1 will be OFF and SW2 will be ON and approximately 50A will flow into the DTC terminal. This discharge current will cause the DTC terminal to drop from 1.15V. At this time, if the potential of the FB terminal goes to the control potential before the potential at the DTC terminal goes lower than 0.45V which is the lower limit value of the triangular wave and if the potential of the FB terminal is lower than the potential of the DTC terminal, then the system is activated. When the output is shorted, the system is either activated or latched depending on whether the time for the high potential of the FB terminal reaches the potential of the control state is long or short. (For detail, see [II] and [IV] of the Mode) There are two ways to go back to operation after the latch to shut off output. Either method can restart with soft start. 1. Turning ON the Vcc. 2. Make the FB terminal to go to the low potential of 1.86V or less. Then, it is cancel led. [Mode Explained] [ I ] Mode ************ Activation This is used when the FB terminal goes down to the control state potential when the DTC terminal is in up slope. In order for the activation to occur when the DTC terminal is in down slope, the FB terminal potential must go below the DTC terminal before the DTC terminal goes to 0.45V. [ II ] Mode ************* Output short --> Activation The system is activated if the FB terminal potential goes below the DTC terminal potential before the DTC terminal goes to 0.45V. If there is not enough time, the output is turned OFF (Latched) [ III ] Mode ************ ON/OFF Control --> Activation This mode turns off the output by forcing the DTC terminal to go down. (The system) returns as in the case of the activation. [ IV ] Mode ************ Output Short (Latch) The output is turned OFF when the FB terminal potential did not go down to the control state before the DTC terminal went down to 0.45V. (6/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER Comp1 FB 1.86V (Initial RESET) R Q 1.25V I1 10 SW1 DTC I3 60 Vcc I2 35 S CDTC RDTC 90K (900mV) SW2 Comp2 1.15V 0.3V * SW1 and SW2 are turned ON by "H" signal. FB 2.0 1.15 1.0 DTC DTC set up value (Tentative) OSC 0.45 0 I1 I2 I3 ON ON OFF 45 ON OFF ON 50 ON OFF OFF Charge 10 ON OFF ON Discharge ON OFF OFF Charge 10 ON ON OFF 45 ON ON OFF 45 ON OFF ON 50 ON OFF OFF Charge 10 ON OFF ON ON ON ON Charge Discharge Charge Charge Discharge 50 Discharge Discharge 50 15 Activate [I] Output short ON/OFF control --> Activate Output short (Latch) [ IV ] [ II ] [ III ] Fig.3 Short Protection Circuit and the Timing Chart of the Modes (7/8) MITSUBISHI SEMICONDUCTORS M62212P/FP/GP GENERAL PURPOSE DC-DC CONVERTER 3.CONSTANT DEFINITION CONSTANT TON TOFF TON + TOFF TOFF (MIN) TON (MAX) D (MAX) COSC L (MIN) R1 (*1) Step-down converter VO + VF VIN - VCE(sat) - VO 1 fOSC TON + TOFF TON 1+ TOFF Step-up converter VO + VF - VIN VIN - VCE(sat) 1 fOSC TON + TOFF TON 1+ TOFF Inverting converter |Vo| + VF VIN - VCE(sat) 1 fOSC TON + TOFF TON 1+ TOFF 1 -TOFF fOSC 1 -TOFF fOSC 1 -TOFF fOSC TON(MAX) TON(MAX) TON(MAX) TON + TOFF TON + TOFF TON + TOFF 1 1 1 -16 * 10 -12 -16 * 10 -12 -16 * 10 -12 3 3 75 * 10 * fosc 75 * 10 * fosc 75 * 10 3 * fosc 2 2 2 2 (VIN - VCE(sat) - VO) * TON(MAX) (VIN -VCE(sat)) * TON(MAX) * fOSC (VIN -VCE(sat)) * TON(MAX) * fOSC 2 * VO * IO 2 * VO * IO IO VO -1 * R2 VREF VDTC(MAX) | ICH1 | VDTC(MAX) | ICH2 | | ICH1 | * tstart VDTC(MAX) IDIS1 * tshort VDTC(MAX) -VOSCL VO -1 * R2 VREF VDTC(MAX) | ICH1 | VDTC(MAX) | ICH2 | | ICH1 | * tstart VDTC(MAX) IDIS1 * tshort VDTC(MAX) -VOSCL |VO| -1 *R2 VREF VDTC(MAX) | ICH1 | VDTC(MAX) | ICH2 | | ICH1 | * tstart VDTC(MAX) IDIS1 * tshort VDTC(MAX) -VOSCL (*1,*2) RDTC (*4) not use short protection use short protection calicurate from start-up time calicurate from shat down time CDTC (*4) VF : Forward Voltage of outer Diode. VCE(sat) : Saturation Voltage of M62212 or Saturation Voltage of Current buffer Transistor. Ao Please setting the Oscillation frequency first and calicurate each constant value. *1 : Please setting AIo about 1/3 to 1/5 of maximum output current. R1 *2 :|Vo|= (1+ ) * VREF R2 *3 : Please settng R2 about few KE to score of KE because output voltage don't undergo a influence of input current (Terminla 7). *4 : Please setting VDTC(MAX) to satisfy D(MAX), fixed from caracteristics of D(MAX) - VDTC(MAX). ICH1 means DTC charge current when start-up(-45A typ), ICH2 means DTC charge current when stable state(-10A typ), VOSCL means lower limit vlage of oscillation waveform (0.45V typ), and IDIS1 means DTC discharge current 1(50A typ). tstart means time internval when terminal vltage of DTC increase to VOSCL from lower voltage and to start switching at first. tshort means time interval when output is shut down after output is shorted. (8/8) |
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