Linear LTC3025-1 Quick start guide for demonstration circuit 1283 Datasheet

QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1283
500mA VERY LOW DROPOUT LINEAR REGULATOR
LTC3025-1
DESCRIPTION
Demonstration circuit 1283 is an ultra-low dropout voltage supply using the LTC3025-1 linear regulator, which
comes in a small 2mm x 2mm 6-Pin DFN package. The
DC1283A has an input voltage range from 0.9V to 5.5V,
an output voltage range between 0.4V and 2.6V, and is
capable of delivering 500 mA max of output current.
The 0.4V reference of the LTC3025-1 allows the
DC1283A to supply power to very low voltage applications. The DC1283A is also an excellent choice for post
regulation of step-down switching regulators, combining
to create a high efficiency low-noise supply. The
DC1283 comes installed with small ceramic capacitors,
showing the LTC3025-1 ability to maintain stability with
ceramic output capacitors.
Design files for this circuit board are available. Call
the LTC factory.
Table 1.
Performance Summary (TA = 25°C)
PARAMETER
Input Voltage Range
CONDITIONS
VALUE
0.9V to 5.5V
Bias Voltage Range
VBIAS ≥ VOUT + 1.5V
2.5V to 5.5V
0.8V±2%(1.152V to 1.248V)
Output Voltage Regulation
VIN = 2.25V to 5.5V, IOUT = 0A to 500 mA,
1.2V±2%(1.152V to 1.248V)
VBIAS = 5V
1.5V ±2%(1.44V to 1.56V)
1.8V±2%(1.728V to 1.872V)
Typical Dropout Voltage
VIN = 1.5V, VBIAS = 2.8V, IOUT = 500mA
Typical Output Voltage Ripple & Noise
75mV
< 10mVP–P
QUICK START PROCEDURE
The DC1283 demonstration board is easy to set
up to evaluate the performance of the LTC30251. For proper measurement equipment configuration, set up the circuit according to the diagram in Figure 2. Before proceeding to test, insert the Vout Enable jumper into the OFF (upper) position, connecting the RUN pin to ground
(GND), which shuts down the circuit.
When measuring the input or output ripple or
noise voltage, care must be taken to avoid a
long ground lead on the oscilloscope probe.
Measure the voltages by touching the probe tip
directly across the Vin or Vout and GND terminals. See Figure 1 for proper scope probe technique. The DC1283 is easy to set up to evaluate the performance of the LTC3025-1. For a
proper measurement equipment configuration,
set up the circuit according to the diagram in
Figure 2.
Please follow the procedure outlined below for
proper operation.
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QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1283
500mA VERY LOW DROPOUT LINEAR REGULATOR
1.
Before proceeding to test, insert the Vout
Enable jumper into the OFF position, and
insert a shunt into jumper of the 1.2V output voltage option.
2.
Apply 1.4V to Vin (100 mV above Vout),
and 5V to Vbias.
Caution: The bias voltage must be 1.5V, or
greater, above the output voltage, and it
must be 2.5V, or greater, for the circuit to
regulate.
Insert Vout Enable jumper into the ON position. Measure Vout; it should be 1.2V+/2% (1.176V to 1.224V).
3.
Vary the input voltage from 1.4V to 5.5V
and the load current from no load to 500
mA. Vout should measure 1.2V +/- 2%
(1.176V to 1.224V).
4.
Insert the Vout Enable jumper into the OFF
position and move the Vout shunt from the
1.2V option into any of the remaining output voltage options: 0.8V, 1.5V, or 1.8V.
Re-insert the Vout Enable jumper into the
ON position. Just as in the 1.2V Vout test,
the output voltage should read Vout +/- 2%
tolerance under static line and load conditions, and +/- 2% tolerance under dynamic
line and load conditions.
5.
When finished evaluating, insert the Vout
Enable jumper into the OFF position.
Note - If the power for the demo board is carried in
long leads, the input voltage at the part could
“ring”, due to the inductance in the long leads.
This ringing could affect the operation of the circuit
or even exceed the maximum voltage rating of the
IC. To eliminate the ringing, a small tantalum capacitor (for instance, an AVX part #
TAJW226M010R) was inserted on the pads between the input power and return terminals on the
bottom of the demo board. The (greater) ESR of
the tantalum will dampen the (possible) ringing
voltage due to the use of long input leads. On a
normal, typical PCB, with short traces, the capacitor is not needed.
Figure 1. Measuring Input or Output Ripple
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QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1283
500mA VERY LOW DROPOUT LINEAR REGULATOR
Figure 2. Proper Measurement Equipment Setup
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QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1283
500mA VERY LOW DROPOUT LINEAR REGULATOR
Figure 3. Load Step Response
V = 2.5V, VBIAS = 5V V
IN
OUT
= 1.5V, 400 mA Load Step (100 mA <-> 500 mA)
Trace 3: Output Current (100 mA/div)
Trace 4: Output Voltage (20mV/div AC)
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QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1283
500mA VERY LOW DROPOUT LINEAR REGULATOR
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