LM3202_06 Datasheet, PDF(4/16 Page) National Semiconductor (TI) – 650mA Miniature, Adjustable, Step-Down DC-DC Converter for RF Power Amplifiers

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LM3202_06 Datasheet, PDF (4/16 Pages) National Semiconductor (TI) – 650mA Miniature, Adjustable, Step-Down DC-DC Converter for RF Power Amplifiers

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System Characteristics The following spec table entries are guaranteed by design providing the component

values in the typical application circuit are used. These parameters are not guaranteed by production testing. Min and Max

limits apply over the full operating ambient temperature range (â30Â°C â¤ TA â¤ 85Â°C) and over the VIN range = 2.7V to 5.5V unless

otherwise specified, Typical values are at TA = 25Â°C, PVIN = VDD = EN = 3.6V unless otherwise specified, L = 3.3ÂµH, DCR of L â¤

100mâ¦, CIN = 10ÂµF, 0603, 6.3V (4.7ÂµF||4.7ÂµF, 0603, 6.3V can also be used), COUT = 4.7ÂµF, 0603, 6.3V

Symbol

Parameter

Conditions

Min

Typ

Max

Units

TRESPONSE Time for VOUT to rise from

1.3V to 3.16V

Time for VOUT to fall from

3.16V to 1.3V

CCON

VCON input capacitance

VIN = 4.2V, COUT = 4.7ÂµF, L = 3.3ÂµH,

RLOAD = 5â¦

VIN = 4.2V, COUT = 4.7ÂµF, L = 3.3ÂµH,

RLOAD = 10â¦

VCON = 1V,

Test frequency = 100 kHz

Âµs

Linearity

Linearity in control

range 0.556V to 1.208V

VIN = 3.6V

Monotonic in nature

-3

ICON

Control pin input current

-10

ÂµA

T_ON

Turn on time

(time for output to reach

3.16V from Enable low to

EN = Low to High, VIN = 4.2V, VO = 3.16V,

COUT = 4.7ÂµF, IOUT â¤ 1mA

210

750

Âµs

high transition)

Î·

Efficiency

VIN = 3.6V, VOUT = 1.3V, IOUT = 90mA

(L = 3.3ÂµH, DCR â¤ 100mâ¦) VIN = 3.6V, VOUT = 3.16V, IOUT = 400mA

VOUT_ripple Ripple voltage, PWM mode VIN = 3V to 4.5V, VOUT = 1.3V, IOUT = 10mA to

400mA (Note 12)

mVp-p

Line_tr

Line transient response

VIN = 600mV perturbance, over Vin range 3V

to 5.5V

TRISE = TFALL = 10Âµs, VOUT = 1.3V, IOUT =

100mA

mVpk

Load_tr Load transient response

VIN = 3.1/3.6/4.5V, VOUT = 1.3V, transients up

to 100mA, TRISE = TFALL = 10Âµs

PSRR

VIN = 3.6V, VOUT = 1.3V,

IOUT = 100mA

sine wave perturbation

frequency = 10kHz, amplitude = 100mVp-p

mVpk

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the component may occur. Operating Ratings are conditions under which operation

of the device is guaranteed. Operating Ratings do not imply guaranteed performance limits. For guaranteed performance limits and associated test conditions,

see the Electrical Characteristics tables.

Note 2: All voltages are with respect to the potential at the GND pins. The LM3202 is designed for mobile phone applications where turn-on after power-up is

controlled by the system controller and where requirements for a small package size overrule increased die size for internal Under Voltage Lock-Out (UVLO)

circuitry. Thus, it should be kept in shutdown by holding the EN pin low until the input voltage exceeds 2.7V.

Note 3: Internal thermal shutdown circuitry protects the device from permanent damage. Thermal shutdown engages at TJ = 150Â°C (typ.) and disengages at TJ

= 130Â°C (typ.).

Note 4: The Human body model is a 100pF capacitor discharged through a 1.5kâ¦ resistor into each pin. (MIL-STD-883 3015.7) The machine model is a 200pF

capacitor discharged directly into each pin.

Note 5: In applications where high power dissipation and/or poor package thermal resistance is present, the maximum ambient temperature may have to be de-

rated. Maximum ambient temperature (TA-MAX) is dependent on the maximum operating junction temperature (TJ-MAX-OP = 125Â°C), the maximum power dissipation

of the device in the application (PD-MAX), and the junction-to ambient thermal resistance of the part/package in the application (Î¸JA), as given by the following

equation: TA-MAX = TJ-MAX-OP â (Î¸JA Ã PD-MAX).

Note 6: Junction-to-ambient thermal resistance (Î¸JA) is taken from thermal measurements, performed under the conditions and guidelines set forth in the JEDEC

standard JESD51-7. A 4 layer, 4" x 4", 2/1/1/2 oz. Cu board as per JEDEC standards is used for the measurements.

Note 7: Min and Max limits are guaranteed by design, test, or statistical analysis. Typical numbers are not guaranteed, but do represent the most likely norm.

Due to the pulsed nature of the testing TA = TJ for the electrical characteristics table.

Note 8: The parameters in the electrical characteristics table are tested under open loop conditions at PVIN = VDD = 3.6V. For performance over the input voltage

range and closed loop results refer to the datasheet curves.

Note 9: Shutdown current includes leakage current of PFET.

Note 10: IQ specified here is when the part is operating at 100% duty cycle.

Note 11: Current limit is built-in, fixed, and not adjustable. Refer to datasheet curves for closed loop data and its variation with regards to supply voltage and

temperature. Electrical Characteristic table reflects open loop data (FB = 0V and current drawn from SW pin ramped up until cycle by cycle limit is activated).

Closed loop current limit is the peak inductor current measured in the application circuit by increasing output current until output voltage drops by 10%.

Note 12: Ripple voltage should measured at COUT electrode on good layout PC board and under condition using suggested inductors and capacitors.

Note 13: National Semiconductor recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper ESD handling

techniques can result in damage.

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