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FUJITSU SEMICONDUCTOR
DS04-27233-2E
DATA SHEET
ASSP For Power Supply Applications
(General Purpose DC/DC Converter)
1-ch DC/DC Converter IC
for low voltage
MB39A105
nnnn DESCRIPTION
The MB39A105 is 1-channel DC/DC converter IC using pulse width modulation (PWM). This IC is ideal for up
conversion.
The minimum operating voltage is low (1.8 V) , and the MB39A105 is best for built-in power supply such as LCD
monitors. Also the short-circuit protection detection output function prevents input/out
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MB39A105 nnnn PIN ASSIGNMENT (TOP VIEW) - INE 1 8 FB CSCP 2 7 RT VCC 3 6 GND SCPOD 4 5 OUT (FPT-8P-M05) 2�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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MB39A105 nn PIN DESCRIPTION nn Pin No. Symbol I/O Descriptions 1 - INE I Error amplifiers (Error Amp) inverted input terminal 2CSCP � Timer-latch short-circuit protection capacitor connection terminal 3VCC � Power supply terminal Open drain output terminal for short-circuit protection detection 4SCPOD O During timer-latch short-circuit protection operation : Output “High-Z” During normal operation : Output “L” 5 OUT O External Nch FET gate drive terminal 6GND � Ground terminal 7RT � Triangular w
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MB39A105 nnnn BLOCK DIAGRAM VCC SCPOD 3 4 - INE 1 VREF Error Amp PWM - Comp. Drive + + + Nch 5 OUT - (0.5 V – 1%) FB 8 VREF IO = 400 mA 6 GND (0.7 V) at VCC = 3.3 V SCP Comp. (0.3 V) - (0.9 V) + CSCP 2 SQ - (1.0 V) RT Current R OSC bias Power UVLO VREF ON/OFF VREF CTL (1.27 V) L : UVLO release – 10% 7 RT 4 +�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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MB39A105 nnnn ABSOLUTE MAXIMUM RATINGS Rating Parameter Symbol Condition Unit Min Max Power supply voltage VCC VCC terminal � 7V Output current IO OUT terminal � 35 mA Output peak current IOP Duty £ 5% (t = 1/fOSC· Duty) � 700 mA Power dissipation PD Ta £ +25 � C � 490* mW Storage temperature TSTG �- 55 +125 � C * : The packages are mounted on the epoxy board (10 cm · 10 cm). WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.)
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MB39A105 nnnn ELECTRICAL CHARACTERISTICS (VCC = 3.3 V, Ta = +25 � C) Value Pin Symbol Parameter Conditions Unit No Min Typ Max 1. Under voltage lockout Threshold voltage VTLH 3VCC = 1.151.351.55V protection circuit block [UVLO] Threshold voltage VTH 2 � 0.95 1.00 1.05 V Short-circuit detection time D VCSCP 2 � 0.15 0.20 0.25 V setting difference voltage Input source current ICSCP 2CSCP = 0.85 V - 1.76 - 0.88 - 0.44 m A 2. Short-circuit protection block Reset voltage VRST 3VCC = 1.11.31.
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MB39A105 nnnn TYPICAL CHARACTERISTICS Power Supply Current vs. Power Supply Voltage Power Supply Current vs. RT Terminal Current 5 5.0 Ta = +25 � C Ta = +25 � C 4.5 RT = 7.5 kW VCC = 3.3 V 4 4.0 3.5 3 3.0 2.5 2 2.0 ICC 1.5 1 1.0 0.5 0 0.0 02 46 8 10 0 10 2030 4050 Power supply voltage VCC (V) RT terminal current IRT (m A) Error Amplifier Threshold Voltage vs. Power Supply Voltage 1.0 Ta = +25 � C 0.9 VCC = 3.3 V 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 02 46 8 10 Power supply voltage VCC (V) Error A
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MB39A105 Triangular Wave Oscillation Frequency Triangular Wave Oscillation Frequency vs. Ambient Temperature vs. Timing Resistor 600 10000 Ta = +25 � C VCC = 3.3 V VCC = 3.3 V RT = 7.5 kW 550 1000 500 100 450 400 10 - 40 - 20 0 20 40 60 80 100 1 10 100 Timing resistor RT (kW ) Ambient temperature Ta (� C) Max On Duty vs. Triangular Wave Oscillation Frequency 100 Ta = +25 � C VCC = 3.3 V 95 90 85 80 75 70 10 100 1000 10000 Triangular wave oscillation frequency fOSC (kHz) Error Amplifier Gain
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MB39A105 (Continued) Power Dissipation vs. Ambient Temperature 600 500 490 400 300 200 100 0 - 40 - 20 0 20 40 60 80 100 Ambient temperature Ta ( � C) 9 Power dissipation PD (mW) ��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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MB39A105 nnnn FUNCTIONS 1. DC/DC Converter Functions (1) Triangular-wave oscillator block (OSC) The triangular wave oscillator incorporates a timing resistor connected to RT terminal (pin 7) to generate triangular oscillation waveform amplitude of 0.3 V to 0.7 V. The triangular waveforms are input to the PWM comparator in the IC. (2) Error amplifier block (Error Amp1, Error Amp2) The error amplifier detects the DC/DC converter output voltage and outputs PWM control signals. In addition, an
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MB39A105 2. Power Control Function A switch in series with a resistor connected with the RT terminal (pin 7) allows you to turn on or turn off the power. On/off setting conditions of power supply RT CTL Power L OFF (standby) ON/OFF CTL H ON (operating) (L : OFF, H : ON) 3. Protective Functions (1) Timer-latch short-circuit protection circuit (SCP) Short-circuit detection comparator detects the error amplifier output voltage level. If the load conditions for the DC/DC converter are stable, th
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MB39A105 nnnn SETTING THE OUTPUT VOLTAGE • Output Voltage Setting Circuit VO R1 Error Amp 1 - 0.5 VO (V) = (R1 + R2) + R2 - INE + R2 (0.5 V) CSCP 2 nnnn SETTING THE TRIANGULAR OSCILLATION FREQUENCY The triangular oscillation frequency is determined by the timing resistor (RT) connected to the RT terminal (pin 7) . Triangular oscillation frequency : fosc 3750 fosc (kHz) : = RT (kW ) 12���������������������������������������������������������������������������������������������������������������
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MB39A105 nnnn SETTING THE SOFT-START TIMES To prevent rush currents when the IC is turned on, you can set a soft-start by connecting soft-start capacitors (CSCP) to the CSCP terminal (pin 2). When IC starts (VCC ‡ UVLO threshold voltage), the external soft-start capacitors (CSCP) connected to CSCP terminal are charged at 11 m A. The error amplifier output (FB (pin 8) ) is determined by comparison between the lower one of the potentials at two non-inverted input terminals (0.5 V in an internal re
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MB39A105 nnnn SETTING TIME CONSTANT FOR TIMER-LATCH SHORT-CIRCUIT PROTECTION CIRCUIT The error amplifier’s output level alaways does the comparison operation with the short-circuit protection com- parator (SCP Comp.) to the reference voltage. While DC/DC converter load conditions are stable, the short-circuit detection comparator output remains stable, and the CSCP terminal (pin 2) is held at soft-start end voltage (about 0.8 V) . If the load condition changes rapidly due to a short-circuit of t
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MB39A105 • Soft-start and short-circuit protection circuit timing chart FB voltage 1.0 V CSCP voltage 0.9 V 0.8 V 0.7 V OSC amplifier 0.3 V Output short Output short Soft-start time Short-circuit detection time t tS tCSCP 15����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������
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MB39A105 nnnn I/O EQUIVALENT CIRCUIT ÆÆ Soft-start block (CS) Short-circuit protection circuit block (SCP) ææ 3 VCC VCC ESD protection CSCP + element 4 SCPOD ESD - 1.0 V 2 CSCP protection element ESD protection GND element 6 GND ÆÆ Triangular wave oscillator block (RT) ææ ÆÆ Error amplifier blockææ VCC VCC (1.27 V) 0.33 V + - CS - INE 1 7 RT 0.5 V FB 8 GND GND Output blockææ VCC OUT 5 GND 16 ÆÆ ÆÆ ææ�������������������������������������������������������������������������������������������
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+ MB39A105 nnnn APPLICATION EXAMPLE m m m m m W m m W m - W – - – - - - W W m m W W 17 C1 C2 C3 R8 0.1 F 4.7 F4.7 F 100 k Q1 SCPOD 3 4 VCC R5 R6 L1 43 k 330 k INE VO A 6.8 H A 1 (9.0 V) VREF R7 PWM Error Amp 22 k Comp. Drive + + D1 OUT R4 + Nch 5 51 k Q2 (0.5 V 1%) C4 C5 C6 C7 C9 4.7 F 4.7 F 4.7 F 0.1 F 0.1 F 8 IO = 400 mA VREF GND FB (0.7 V) at VCC = 3.3 V 6 SCP Comp. (0.3 V) (0.9 V) CSCP + 2 VIN SQ C8 RT Current (1.8 V to (1.0 V) 0.22 F 6.0 V) R OSC bias Power UVLO VREF ON/OFF VREF CTL (1
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MB39A105 nnnn PARTS LIST COMPONENT ITEM SPECIFICATION VENDOR PARTS No. Q1 Pch FET VDS = 20 V, ID = - 2 A (Max) SANYO MCH3306 Q2, Q3 Nch FET VDS = 20 V, Qg = 4.5 nC (Typ) SANYO MCH3405 D1 Diode VF = 0.40 V (Max) , at IF = 1 A SANYO SBS004 L1 Inductor 6.8 m H 1.4 A, 144 mW SUMIDA CMD5D13-6R8 C1, C7, C9 Ceramics Condenser 0.1 m F 50 V TDK C1608JB1H104K C2 to C6 NeoCapacitor 4.7 m F 10 V NEC/TOKIN TEPSLA21A475M8R C8 Ceramics Condenser 0.22 m F 10 V TDK C1608JB1A224K R1 Resistor 7.5 kW 0.5 % ssm RR08
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MB39A105 nnnn SELECTION OF COMPONENTS • Nch MOS FET The N-ch MOSFET for switching use should be rated for at least 20% more than the maximum output voltage. To minimize continuity loss, use a FET with low RDS(ON) between the drain and source. For high output voltage and high frequency operation, on/off-cycle switching loss will be higher so that power dissipation must be considered. In this application, the SANYO MCH3405 is used. Continuity loss, on/off switching loss, and total loss are determi
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MB39A105 2 PC = ID · RDS (ON) · Duty 9- 2.4 2 = 0.94 · 0.16 · 9 := 0.104 W VD (Max) · ID · tr · fOSC PS (ON) = 6 - 9 3 9 · 0.94 · 18 · 10 · 500 · 10 = 6 : = 0.013 W VD (Max) · ID (Max) · tf · fOSC PS (OFF) = 6 - 9 3 9 · 1.20 · 8 · 10 · 500 · 10 = 6 : = 0.007 W PT = PC + PS (ON) + PS (OFF) : = 0.104 + 0.013 + 0.007 : = 0.124 W The above power dissipation figures for the MCH3405 is satisfied with ample margin at 0.8 W. • Inductors In selecting inductors, it is of course es
