Datasheet

LP2997
SNVS295F MAY 2004REVISED APRIL 2013
www.ti.com
DESCRIPTION
The LP2997 is a linear bus termination regulator designed to meet the JEDEC requirements of SSTL-18. The
output, V
TT
is capable of sinking and sourcing current while regulating the output voltage equal to VDDQ / 2. The
output stage has been designed to maintain excellent load regulation while preventing shoot through. The
LP2997 also incorporates two distinct power rails that separates the analog circuitry from the power output stage.
This allows a split rail approach to be utilized to decrease internal power dissipation. It also permits the LP2997
to provide a termination solution for the next generation of DDR-SDRAM memory (DDRII).
Pin Descriptions
AVIN AND PVIN AVIN and PVIN are the input supply pins for the LP2997. AVIN is used to supply all the internal control circuitry. PVIN,
however, is used exclusively to provide the rail voltage for the output stage used to create V
TT
. These pins have the capability to work off
separate supplies, under the condition that AVIN is always greater than or equal to PVIN. For SSTL-18 applications, it is recommended to
connect PVIN to the 1.8V rail used for the memory core and AVIN to a rail within its operating range of 2.2V to 5.5V (typically a 2.5V
supply). PVIN should always be used with either a 1.8V or 2.5V rail. This prevents the thermal limit from tripping because of excessive
internal power dissipation. If the junction temperature exceeds the thermal shutdown than the part will enter a shutdown state identical to
the manual shutdown where V
TT
is tri-stated and V
REF
remains active. A lower rail such as 1.5V can be used but it will reduce the maximum
output current, therefore it is not recommended for most termination schemes.
VDDQ VDDQ is the input used to create the internal reference voltage for regulating V
TT
. The reference voltage is generated from a resistor
divider of two internal 50k resistors. This ensures that V
TT
will track VDDQ / 2 precisely. The optimal implementation of VDDQ is as a
remote sense. This can be achieved by connecting VDDQ directly to the 1.8V rail at the DIMM instead of PVIN. This ensures that the
reference voltage tracks the DDR memory rails precisely without a large voltage drop from the power lines. For SSTL-18 applications
VDDQ will be a 1.8V signal, which will create a 0.9V termination voltage at V
TT
(See Electrical Characteristics Table for exact values of V
TT
over temperature).
V
SENSE
The purpose of the sense pin is to provide improved remote load regulation. In most motherboard applications the termination
resistors will connect to V
TT
in a long plane. If the output voltage was regulated only at the output of the LP2997 then the long trace will
cause a significant IR drop resulting in a termination voltage lower at one end of the bus than the other. The V
SENSE
pin can be used to
improve this performance, by connecting it to the middle of the bus. This will provide a better distribution across the entire termination bus.
If remote load regulation is not used then the V
SENSE
pin must still be connected to V
TT
. Care should be taken when a long V
SENSE
trace is
implemented in close proximity to the memory. Noise pickup in the V
SENSE
trace can cause problems with precise regulation of V
TT
. A small
0.1uF ceramic capacitor placed next to the V
SENSE
pin can help filter any high frequency signals and preventing errors.
SHUTDOWN The LP2997 contains an active low shutdown pin that can be used for suspend to RAM functionality. In this condition the V
TT
output will tri-state while the V
REF
output remains active providing a constant reference signal for the memory and chipset. During shutdown
V
TT
should not be exposed to voltages that exceed PVIN. With the shutdown pin asserted low the quiescent current of the LP2997 will drop,
however, VDDQ will always maintain its constant impedance of 100k for generating the internal reference. Therefore, to calculate the total
power loss in shutdown both currents need to be considered. For more information refer to the Thermal Dissipation section. The shutdown
pin also has an internal pull-up current; therefore, to turn the part on the shutdown pin can either be connected to AVIN or left open
V
REF
V
REF
provides the buffered output of the internal reference voltage VDDQ / 2. This output should be used to provide the reference
voltage for the Northbridge chipset and memory. Since these inputs are typically an extremely high impedance, there should be little current
drawn from V
REF
. For improved performance, an output bypass capacitor can be used, located close to the pin, to help with noise. A
ceramic capacitor in the range of 0.1 µF to 0.01 µF is recommended. This output remains active during the shutdown state and thermal
shutdown events for the suspend to RAM functionality.
V
TT
V
TT
is the regulated output that is used to terminate the bus resistors. It is capable of sinking and sourcing current while regulating the
output precisely to VDDQ / 2. The LP2997 is designed to handle continuous currents of up to +/- 0.5A with excellent load regulation. If a
transient is expected to last above the maximum continuous current rating for a significant amount of time, then the bulk output capacitor
should be sized large enough to prevent an excessive voltage drop. If the LP2997 is to operate in elevated temperatures for long durations
care should be taken to ensure that the maximum junction temperature is not exceeded. Proper thermal de-rating should always be used.
(Please refer to the Thermal Dissipation section) If the junction temperature exceeds the thermal shutdown point than V
TT
will tri-state until
the part returns below the temperature hysteresis trip-point
COMPONENT SELECTIONS
INPUT CAPACITOR
The LP2997 does not require a capacitor for input stability, but it is recommended for improved performance
during large load transients to prevent the input rail from dropping. The input capacitor should be located as
close as possible to the PVIN pin. Several recommendations exist dependent on the application required. A
typical value recommended for AL electrolytic capacitors is 22 µF. Ceramic capacitors can also be used. A value
in the range of 10 µF with X5R or better would be an ideal choice. The input capacitance can be reduced if the
LP2997 is placed close to the bulk capacitance from the output of the 1.8V DC-DC converter. For the AVIN pin, a
small 0.1uF ceramic capacitor is sufficient to prevent excessive noise from coupling into the device.
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