SGS Thomson Microelectronics L4962A, L4962EH-A, L4962E-A Datasheet

1.5APOWER SWITCHING REGULATOR
1.5AOUTPUTCURRENT
5.1V TO40V OUTPUTVOLTAGE RANGE PRECISE(±2%) ON-CHIPREFERENCE HIGH SWITCHING FREQUENCY VERYHIGH EFFICIENCY (UP TO 90%) VERYFEW EXTERNALCOMPONENTS SOFT START INTERNALLIMITINGCURRENT THERMALSHUTDOWN
DESCRIPTION
TheL4962 is a monolithicpower switching regula­tor delivering1.5Aat a voltage variable from 5V to 40V in step down configuration.
Featuresofthe device includecurrentlimiting,soft start,thermal protectionand 0 to 100% dutycycle for continuousoperatingmode.
L4962
POWERDIP
(12 + 2 + 2)
ORDERING NUMBERS
: L4962/A(12 + 2 + 2 Powerdip)
L4962E/A (Heptawatt L4962EH/A (Horizontal
TheL4962ismountedin a16-leadPowerdipplastic packageand Heptawattpackageand requiresvery few externalcomponents.
Efficient operation at switching frequencies up to 150KHz allows a reduction in the size and cost of external filtercomponents.
HEPTAWATT
Vertical)
Heptawatt)
BLOCKDIAGRAM
June 2000
Pin X = Powerdip Pin (X) = Heptawatt
1/16
L4962
ABSOLUTEMAXIMUM RATINGS
Symbol Parameter Value Unit
Input voltage 50 V
7
Input to output voltage difference 50 V Negative output DC voltage -1 V
2
V
7-V2
V
V
Output peakvoltage at t = 0.1µs; f= 100KHz -5 V
V
11,V15
V
P
T
j,Tstg
I I
Voltageat pin11,15 5.5 V Voltageat pin10 7 V
10
Pin 11 sink current 1 mA
11
Pin 14 source current 20 mA
14
Power dissipationat T
tot
Junction and storage temperature -40 to150
PIN CONNECTION (Top view)
C (Powerdip)
≤90°
pins
T
90°C (Heptawatt)
case
4.3 15
W W
C
°
THERMALDATA
Symbol Parameter Heptawatt Powerdip
R
thj-case
R
thj-pins
R
thj-amb
* Obtained with the GND pins soldered to printed circuit with minimized copperarea.
Thermal resistance junction-case max 4°C/W ­Thermal resistance junction-pins max - 14°C/W Thermal resistance junction-ambient max 50°C/W 80°C/W*
PIN FUNCTIONS
HEPTAWATT POWERDIP NAME
1 7 SUPPLYVOLTAGE Unregulatedvoltage input. Aninternalregulatorpowers
the internal logic.
2 10 FEEDBACK INPUT Thefeedback terminal of theregulation loop.Theoutput
is connected directly to thisterminal for 5.1V operation; it is connected via a divider for higher voltages.
3 11 FREQUENCY
COMPENSATION
A series RC network connected between this terminal and ground determines the regulation loop gain characteristics.
2/16
FUNCTION
PIN FUNCTIONS (cont’d)
L4962
HEPTAWATT POWERDIP NAME
FUNCTION
4 4, 5, 12, 13 GROUND Common ground terminal.
5 14 OSCILLATOR A parallel RC network connected to this terminal
determines the switching frequency. This pin must be connected to pin 7 input when the internal oscillator is used.
6 15 SOFT START Soft start time constant. A capacitor is connected
between this terminaland ground to definethe softstart time constant. This capacitor also determines the average short circuit output current.
7 2 OUTPUT Regulator output.
1, 3, 6,
N.C.
8, 9, 16
ELECTRICAL CHARACTERISTICS
(Refer to the test circuit, T
=25°C, Vi= 35V, unless otherwise
j
specified)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
DYNAMICCHARACTERISTICS
V
Output voltage range Vi= 46V Io=1A V
o
V
Input voltage range Vo=V
i
V
V
Line regulation Vi= 10V to 40V Vo=V
o
V
Load regulation Vo=V
o
Internal reference voltage
ref
(pin 10)
V
I
I
Average temperature
ref
coefficient of refer. voltage
T
V
Dropout voltage Io= 1.5A 1.5 2 V
d
Maximum operatingload
om
current
I
Current limiting threshold
2L
(pin 2) Input average current Vi= 46V; outputshort-circuit 15 30 mA
SH
Efficiency f = 100KHz V
η
SVR Supply voltage ripple
rejection
ref
to 36V Io= 1.5A 9 46 V
ref
=1A 15 50 mV
refIo
ref
Io= 0.5A to 1.5A 8 20 mV
40 V
Vi= 9V to 46V Io= 1A 5 5.1 5.2 V
T
=0°C to125°C
j
=1A
I
o
Vi= 9V to 46V V
o=Vref
to 36V
1.5 A
Vi= 9V to 46V V
I
o
fripple
V
to 36V
o=Vref
o=Vref
=1A Vo= 12V 80 %
V
=2V
i
rms
50 56 dB
= 100Hz
o=Vref
Io = 1A
0.4 mV/°C
2 3.3 A
70 %
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L4962
ELECTRICAL CHARACTERISTICS
(continued)
Symbol Parameter Test Conditions Min. Typ. Max. Unit
DYNAMICCHARACTERISTICS
(cont’d)
f Switching frequency 85 100 115 KHz
f
Voltagestability of
V
f
switching frequency
i
f
Temperature stabilityof switching frequency
T
j
Maximum operating
max
Vi= 9V to 46V 0.5 %
Tj=0°C to 125°C1%
Vo=V
ref
Io= 1A 120 150 KHz
switching frequency
T
Thermal shutdown
sd
150 °C
junction temperature
DC CHARACTERISTICS
I
Quiescent draincurrent 100% duty cycle
7Q
pins 2 and 14 open
V
= 46V
i
0% dutycycle 15 20 mA
30 40 mA
-I
Output leakagecurrent 0% duty cycle 1 mA
2L
SOFT START
I
15SO
I
Source current 100 140 180 Sink current 50 70 120 µA
15SI
ERRORAMPLIFIER
V V I
-I
High level output voltage V10= 4.7V I11= 100µA 3.5 V
11H
Low level output voltage V10= 5.3V I11= 100µA 0.5 V
11L
Sink output current V10= 5.3V 100 150
11SI
Source outputcurrent V10= 4.7V 100 150 µA
11SO
I
Input bias current V10= 5.2V 2 10
10
DC open loop gain V11=1Vto3V 46 55 dB
G
v
OSCILLATOR
-I
Oscillator source current 5 mA
14
A
µ
A
µ
A
µ
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L4962
CIRCUITOPERATION
(refertothe blockdiagram)
TheL4962is amonolithicstepdownswitchingregu­latorprovidingoutputvoltagesfrom5.1Vto40Vand delivering 1.5A.
The regulationloop consists of a sawtoothoscilla­tor, error amplifier, comparator and the output stage.An errorsignalisproducedbycomparingthe output voltage with a precise 5.1V on-chip refer­ence (zener zaptrimmedto±2%).
Thiserrorsignalis thencomparedwiththesawtooth signal to generate the fixed frequencypulse width modulated pulseswhich drivethe output stage.
The gain andfrequencystabilityof the loop can be adjusted by an external RC network connectedto pin 11. Closing the loop directly gives an output voltage of 5.1V. Higher voltages are obtained by insertinga voltagedivider.
Output overcurrentsat switchon are prevented by the softstart function.The erroramplifieroutput is initially clamped by the external capacitor C
and
ss
Figure1. Softstart waveforms
allowedtorise,linearly,asthiscapacitoris charged by aconstantcurrentsource.Outputoverloadpro­tection is provided in the form of a current limiter. The load current is sensed by an internal metal resistorconnectedtoa comparator.When the load currentexceedsapresetthresholdthis comparator sets a flipflop whichdisables the output stage and dischargesthe soft start capacitor.Asecondcom­parator resets the flipflopwhen thevoltageacross the soft start capacitorhas fallento 0.4V.
The output stage is thusre-enabledandthe output voltagerisesunder controlof the soft start network. If the overload condition is still present the limiter will trigger again when the threshold current is reached.Theaverageshortcircuitcurrentislimited to a safevalueby the dead timeintroduced by the soft start network. The thermaloverload circuit dis­ables circuit operation when the junctiontempera­ture reaches about 150°C and has hysteresis to preventunstable conditions.
Figure2. Currentlimiterwaveforms
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