IK1589 02

TECHNICAL DATA
2.7 A Low Dropout Positive Regulator
IK1589
Description
The IK1589 is a low dropout three-terminal
regulator with 2.7A output current capability. This
device has been optimized for VTT bus termination,
where transient response and minimum input voltage
are critical. The IK1589 offers fixed 1.2V with 2.7A
current capability for a GTL+ bus VTT termination.
Current limit is trimmed to ensure specified output
current and controlled short-circuit current. On-chip
thermal limiting provides protection against any
combination of overload and ambient temperature that
would create excessive junction temperatures.
The IK1589 is available in the industry-standard
TO-220, TO-263-3L, TO-263-2L and TO-252 (DPAK)
power packages.
Features
•
•
•
•
Output Current : 2.7 A
Maximum Input Voltage : 7V
Current Limiting and Thermal Protection
Standard TO-220, TO-263, TO-252 (DPAK) power packages
Ordering Information
IK1589KB
TO-220 Tube
IK1589DOT
TO-252 T&R
IK1589D2
TO-263 Tube
IK1589D2T
TO-263 T&R
Applications
•
•
•
A GTL + bus supply VRM 8.5
Low voltage logic supply
Post regulator switching supply
Absolute Maximum Ratings (note1)
Parameter
Min.
Max.
Unit
7
V
0
155
°C
-65
150
°C
300
°C
V IN
Operating Junction Temperature Range
Storage Temperature Range
Lead Temperature (Soldering, 10 sec.)
Power Dissipation (Note2) Internally Limited
* Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device.
These are stress ratings only and functional operation of the device at these or any other conditions beyond those
indicated under “recommended operating conditions” is not implied.
Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
Operating Ratings
Juncton Temperature Range (Note3) -10°C to 125°C
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IK1589
Electrical Characteristics
Typical and limits appearing in normal type apply Tj=+25°C
Symbol
Vout
∆Vout
∆Vout
∆V
Ilimit
Io(min)
Parameter
Output voltage
(Note 6)
Line Regulation
(Note 7)
Load Regulation
(Note 7)
Dropout Voltage
(Note 8)
Current Limit
Minimum Load
Current
RR
Ripple Rejection
S
Temperature
Stability
Conditions
3.3V ≤ Vin ≤ 7V
Min
(Note5)
Typ
(Note4)
Max
(Note5)
Units
1.176
1.200
1.224
V
0.2
%
1.5
%
1.3
V
(Vout + 1.5V) ≤ Vin ≤ 7V
Iout = 10 mA
(Vin – Vout) = 3V
10mA ≤ Iout ≤ 2.7A
∆Vref=1%, Iout = 2.7A
-
(Vin-Vout) = 2V
4.5
1.5V ≤ (Vin-Vout) ≤ 5.75V
f RIPLE = 120HZ, COUT=25µF
Tantalum,
Iout=5A;V IN =Vout+2V
A
10
mA
60
-
-
dB
-
0.5
-
%
NOTES 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Rating
indicate conditions for which the device is intended to be functional, but specific performance is not guaranteed. For
guaranteed specifications and the test conditions, see the Electrical Characteristics.
NOTES 2: Power Dissipation is kept in a safe range by current limiting circuitry.
NOTES 3: The maximum power dissipation is a function of Tj(MAX) , ΘjA and TA . The maximum allowable power
dissipation at any ambient temperature is PD=(Tj (MAX) – TA)ΘjA.
NOTES 4: Typical Values represent the most likely parametric norm
NOTES 5: All limits are guaranteed by testing or statistical analysis
NOTES 6: IFULL LOAD is defind in the current limit curves . The IFULL LOAD curve defines the current limit as a function of
input-to-output voltage .
NOTES 7: Load and Line regulation are measured at constant junction temperature , and are guaranteed up to
the maximum power dissipation of 30W.Power dissipation is determined by the input/output differential and the
output current. Guaranteed maximum power dissipation will not be available over the full input/output range.
NOTES 8: Dropout voltage is specified over the full output current range of the device.
Typical Application
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IK1589
Typical Performance Characteristics
Figure 1.
Figure 2.
Figure 3.
Figure 4.
Figure 5.
Figure 6.
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IK1589
Applications Information
General
The IK1589 is a three-terminal regulator optimized for a GTL+ VTT termination applications. It is short-circuit
protected, and offers thermal shutdown to turn off the regulator when the junction temperature exceeds about
150°C. The IK1589 provides low dropout voltage and fast transient response. Frequency compensation uses
capacitors with low ESR while still maintaining stability. This is critical in addressing the needs of low voltage
high speed microprocessor buses like a GTL+.
Stability
The IK1589 requires an output capacitor as a part of the frequency compensation. It is recommended to use
a 22µF solid tantalum or a 100µF aluminum electrolytic on the output to ensure stability. The frequency
compensation of these devices optimizes the frequency response with low ESR capacitors. In general, it is
suggested to use capacitors with an ESR of <1Ω.
Protection Diodes
In normal operation, the IK1589 does not require any protection diodes.
A protection diode between the input and output pins is usually not needed. An internal diode between the
input and output pins on the IK1589 can handle microsecond surge currents of 50A to 100A. Even with large
value output capacitors it is difficult to obtain those values of surge currents in normal operation. Only with
large values of output capacitance, such as 1000 μF to 5000 μF, and with the input pin instantaneously
shorted to ground can damage occur. A crowbar circuit at the input can generate those levels of current; a
diode from output to input is then recommended, as shown in Figure 7. Usually, normal power supply cycling
or system “hot plugging and unplugging” will not generate current large enough to do any damage.
As with any IC regulator, exceeding the maximum input-tooutput voltage differential causes the internal
transistors to break down and none of the protection circuitry is then functional.
Figure 7. Optional Protection
Load Regulation
It is not possible to provide true remote load sensing because the IK1589 is a three-terminal device. Load
regulation is limited by the resistance of the wire connecting the regulators to the load. Load regulation per
the data sheet specification is measured at the bottom of the package.
For fixed voltage devices, negative side sensing is a true Kelvin connection with the ground pin of the device
returned to the negative side of the load. This is illustrated in Figure 8.
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IK1589
Figure 8. Connection for Best Load Regulation
Thermal Considerations
The IK1589 protects itself under overload conditions with internal power and thermal limiting circuitry.
However, for normal continuous load conditions, do not exceed maximum junction temperature ratings. It is
important to consider all sources of thermal resistance from junction-to-ambient. These sources include the
junction-to-case resistance, the case-to-heat sink interface resistance, and the heat sink resistance. Thermal
resistance specifications have been developed to more accurately reflect device temperature and ensure
safe operating temperatures. For example, look at using an IK1589 to generate 2.7A @ 1.2V ±2% from a
3.3V source (3.2V to 3.6V).
Assumptions:
• VIN= 3.6V worst case
• VOUT = 1.176V worst case
• IOUT = 2.7A continuous
• TA = 70°C
• θCase-to-Ambient = 3°C/W (assuming both a heatsink and a thermally conductive material) The power
dissipation in this application is:
PD = (VIN – VOUT) * (IOUT) = (3.6 – 1.18) * (2.7) = 6.53W
From the specification table:
TJ = TA + (PD) * (θCase-to-Ambient + θJC)= 70 + (6.53) * (3 + 3) = 109°C
The junction temperature is below the maximum rating.
Junction-to-case thermal resistance is specified from the IC junction to the bottom of the case directly below
the die. This is the lowest resistance path for heat flow. Proper mounting ensures the best thermal flow from
this area of the package to the heat sink. Use of a thermally conductive material at the case-to-heat sink
interface is recommended. Use a thermally conductive spacer if the case of the device must be electrically
isolated and include its contribution to the total thermal resistance. The case of the IK1589 is directly
connected to the output of the device.
Figure 9. Application Circuit (IK1589)
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TO-263-2L PACKAGE OUTLINE DIMENSION
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