2.5A POWER SWITCHING REGULATOR 2.5A OUTPUT CURRENT 5.1V OPUTPUT V
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L4960
2.5A POWER SWITCHING REGULATOR
2.5A OUTPUT CURRENT 5.1V OPUTPUT VOLTAGE RANGE PRECISE ON-CHIP REFERENCE HIGH SWITCHING FREQUENCY VERY HIGH EFFICIENCY 90%) VERY EXTERNAL COMPONENTS SOFT START INTERNAL LIMITING CURRENT THERMAL SHUTDOWN
HEPTAWATT
ORDERING NUMBERS: L4960 (Vertical) L4960H (Horizontal)
DESCRIPTION L4960 monolithic power switching regulator delivering 2.5A voltage variable from step down configuration. Features device include current limiting, soft start, thermal protection 100% duty cycle continuous operation mode.
L4960 mounted Heptawattplastic power package requires very external components. Efficient operation switching frequencies 150KHz allows reduction size cost external filter components.
BLOCK DIAGRAM
June 2000
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L4960
CONNECTION (Top view)
ABSOLUTE MAXIMUM RATINGS
Symbol Ptot Tstg Parameter Input voltage Input output voltage difference Negative output voltage Negative output peak voltage 0.1µs; 100KHz Voltage Voltage sink current source current Power dissipation Tcase 90°C Junction storage temperature Value Unit
FUNCTIONS
NAME SUPPLY VOLTAGE FUNCTION Unregulated voltage input. internal regulator powers internal logic. feedback terminal regulation loop. output connected directly this terminal 5.1V operation; connected divider higher voltages. series network connected between this terminal ground determines regulation loop gain characteristics. Common ground terminal. parallel network connected this terminal determines switching frequency. Soft start time constant. capacitor connected between this terminal ground define soft start time constant. This capacitor also determines average short circuit output current. Regulator output.
FEEDBACK INPUT
FREQUENCY COMPENSATION GROUND OSCILLATOR
SOFT START
OUTPUT
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THERMAL DATA
Symbol j-case j-amb Thermal resistance junction-case Thermal resistance junction-ambient Parameter Value Unit °C/W °C/W
ELECTRICAL CHARACTERISTICS (Refer test circuit, 35V, unless otherwise specified)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
DYNAMIC CHARACTERISTICS
Vref Vref Output voltage range Input voltage range Line regulation Load regulation Internal reference voltage (pin Average temperature coefficient refer voltage Dropout voltage Maximum operating load current Current limiting threshold (pin Input average current Efficiency Vref Vref 2.5A Vref Vref
0.5A
125°C Vref Vref 46V; 100KHz output short-circuit Vref
mV/°C
Supply voltage ripple rejection
2Vrms fripple 100Hz Vref
fmax
Switching frequency Voltage stability switching frequency Temperature stability switching frequency Maximum operating switching frequency Thermal shutdown junction temperature
125°C
Vref
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ELECTRICAL CHARACTERISTICS (continued)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
CHARACTERISTICS
Quiescent drain current 100% duty cycle pins open duty cycle -I7L Output leakage current duty cycle
SOFT START
I6SO I6SI Source current Sink current
ERROR AMPLIFIER
I3SI -I3SO High level output voltage level output voltage Sink output current Source output current Input bias current open loop gain 4.7V 5.3V 5.3V 4.7V 5.2V 100µA 100µA
OSCILLATOR
Oscillator source current
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L4960
CIRCUIT OPERATION (refer block diagram) L4960 monolithicstepdownswitching regulator providing outputvoltagesfrom 5.1V delivering 2.5A. regulation loop consists sawtooth oscillator, error amplifier, comparator output stage. errorsignal produced comparing output voltage with precise 5.1V on-chip reference (zener trimmed 2%). This error signalis thencompared with thesawtooth signal generate fixed frequency pulse width modulated pulses which drive output stage. gain frequency stability loop adjusted external network connected Closing loop directly gives output voltage 5.1V. Higher voltages obtained inserting voltage divider. Output overcurrents switch prevented soft start function. error amplifier output initially clamped external capacitor allowed rise, linearly, this capacitor charged constant current source. Output overload protection provided form current limiter. load current sensed internal metal resistor connected comparator. When load current exceeds preset threshold this comparator sets flip flop which disables output stage discharges soft start capacitor. second comparator resets flip flop when voltage across soft start capacitor fallen 0.4V. output stage thus re-enabled output voltage rises under control soft start network. overload condition still present limiter will trigger again when threshold current reached. average short circuit current limited safe value dead time introduced soft start network. thermal overload circuit disables circuit operation when junction temperature reaches about 150°C hysteresis prevent unstable conditions.
Figure Soft start waveforms
Figure Current limiter waveforms
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Figure Test application circuit
(ROE) 150µH (COGEMA 946042) CORE TYPE: MAGNETICS 58206-A2 TURNS WIRE GAUGE: 0.8mm AWG)
Figure Quiescent drain current supply voltage duty cycle)
Figure Quiescent drain current supply voltage (100% duty cycle)
Figure Quiescent drain curre junction mperature duty cycle)
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Figure Quiescent drain current junction mperature (100% duty cycle) Figure Reference voltage (pin Figure Reference voltage versus junction temperature (pin
Figure Open loop frequency phase responde error amplifier
igur itchi frequency input voltage
gure Switc frequ unctio temperature
igure itching equency (see test circuit)
igur ansient response
Figure Load transi response
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Figure Supply voltage ripple rejection frequency Figure Dropout voltage between current Figure Dropout voltage twee junction temperature
Figure Power dissipation derating curve
Effici output current
Effi output current
output current
output voltage
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APPLICATION INFORMATION
Figure Typical application circuit
(ROE) BYW80 SCHOTTKY DIODE SUGGESTED INDUCTOR: 150µH CORE TYPE: MAGNETICS 58206 TURNS: WIRE GAUGE: 0.8mm AWG), COGEMA 946042 U15/GUP15: TURNS: WIRE GAUGE: 0.8mm AWG), GAP: 1mm, COGEMA 969051.
Figure P.C. board component layout Fig. scale)
Resistor values standard output voltages 4.7K 4.7K 4.7K 4.7K 6.2K 9.1K
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APPLICATION INFORMATION Figure minimal 5.1V fixed regulator; Very component required
COGEMA 946042 969051 (ROE)
(TOROID CORE) (U15 CORE)
Figure Programmable power supply
5.1V 2.5A Load regulation 10mV 5.1V)
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APPLICATION INFORMATION (continued) Figure Microcomputer supply with 5.1V, -5V, +12V -12V outputs
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APPLICATION INFORMATION (continued) Figure DC-DC converter 5.1V/4A, 12V/2.5A;a suggestion synchronize negative output
COGEMA 946042 (969051) COGEMA 946044 (946045) BYW80
Figure multiple supplies several L4960s synchronized shown
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APPLICATION INFORMATION (continued) Figure Regulator distributed supplies
MOUNTING INSTRUCTION powerdissipated circuitmust removed adding external heatsink. Thanks Heptawatt package attaching hetsink very simple, screw compression spring (clip) being sufficient. Between heatsink packageit betterto insert layer silicon grease, optimize thermal contact, electrical isolation needed between surfaces.
Figure Mounting example
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DIM. TYP. inch TYP.
MIN.
0.35 2.34 4.88 7.42 10.05 16.7 21.24 22.27 15.1 2.55 4.83 3.65 2.54 5.08 7.62
16.9 14.92 21.54 22.52 15.5 6.35 5.08
MAX. 1.37 1.35 0.55 0.97 2.74 5.28 7.82 10.4 10.4 17.1 21.84 22.77 1.29 15.8 3.05 5.33 3.85
MIN.
0.094 0.047 0.014 0.028 0.024 0.095 0.193 0.295 0.396 0.657 0.386 0.877 0.102 0.594 0.236 0.100 0.190 (typ.) 0.144 0.100 0.200 0.300
0.668 0.587 0.848 0.891 0.110 0.610 0.250 0.008 0.110 0.200
MAX. 0.189 0.054 0.110 0.053 0.022 0.038 0.031 0.035 0.105 0.205 0.307 0.409 0.409 0.673 0.860 0.896 0.051 0.118 0.622 0.260 0.120 0.210 0.152
OUTLINE MECHANICAL DATA
Heptawatt
Dia.
HEPTAMEC
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MIN. TYP. MAX. 1.37 0.35 2.41 4.91 7.49 10.05 14.2 15.8 15.1 4.44 3.65 3.85 0.144 15.8 0.102 0.594 0.236 0.175 0.152 2.54 5.08 7.62 1.35 0.55 2.67 5.21 10.4 10.4 0.396 0.559 0.173 0.622 0.201 0.118 0.622 0.260 0.095 0.193 0.295 0.100 0.200 0.300 0.094 0.047 0.014 0.024 MIN. inch TYP. MAX. 0.189 0.054 0.110 0.053 0.022 0.031 0.035 0.105 0.205 0.307 0.409 0.409
DIM.
OUTLINE MECHANICAL DATA
Heptawatt
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L4960
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