Texas Instruments Evaluation Board for the LM10010 LM10010EVM/NOPB LM10010EVM/NOPB Datenbogen
Produktcode
LM10010EVM/NOPB
Device Evaluation
5.5
Quick Setup Software Control
Once the LM10010 evaluation board is setup and the LM21215A-1 is determined to be correctly regulating
the output voltage, the software can be installed and communication can then be established with the
LM10010. In the evaluation board kit, there should be a CD with all the necessary files including a readme
file explaining the installation process. First, the drivers for the communications dongle are installed, and
then the control software is installed.
the output voltage, the software can be installed and communication can then be established with the
LM10010. In the evaluation board kit, there should be a CD with all the necessary files including a readme
file explaining the installation process. First, the drivers for the communications dongle are installed, and
then the control software is installed.
These files should be executed on a PC running Windows XP or later to install the software.
6
Device Evaluation
Once the software is installed, you can connect the dongle to the evaluation board to complete the
communications. After configuring the hardware connections, apply an input voltage of 5V to the device.
The current hardware configuration allows the LM10010EVM to work from 3.0V to 5.5V system rails.
communications. After configuring the hardware connections, apply an input voltage of 5V to the device.
The current hardware configuration allows the LM10010EVM to work from 3.0V to 5.5V system rails.
Double click on the GUI executable in the installation folder from the previous installation step. The
evaluation board should be ready for control and the program front panel should appear. For an
explanation of how the program is used, see
evaluation board should be ready for control and the program front panel should appear. For an
explanation of how the program is used, see
7
Connection Descriptions
Terminal Silkscreen
Description
VIN
This terminal is the input voltage to the device. The evaluation board will operate over the input voltage
range of 3.0V to 5.5V.
range of 3.0V to 5.5V.
GND
These terminals are the ground connections to the device. The input power ground should be connected
next to the input VIN connection, and the output power ground next to the VOUT connection.
next to the input VIN connection, and the output power ground next to the VOUT connection.
VOUT
This terminal connects to the output voltage of the power supply and should be connected to the load.
ENABLE
This terminal connects to the enable pin of the LM21215A-1. This terminal can be left floating or driven
externally. If left floating, a 2 µA current source will pull the pin high, thereby enabling the device. If
driven externally, a voltage typically less than 1.2V will disable the device.
externally. If left floating, a 2 µA current source will pull the pin high, thereby enabling the device. If
driven externally, a voltage typically less than 1.2V will disable the device.
SS/TRK
This terminal provides access to the SS/TRK pin of the LM21215A-1. Connections to this terminal are
not needed for most applications. The feedback pin of the device will track the voltage on the SS/TRK
pin if it is driven with an external voltage source that is below the 0.6V reference.
not needed for most applications. The feedback pin of the device will track the voltage on the SS/TRK
pin if it is driven with an external voltage source that is below the 0.6V reference.
PGOOD
This terminal connects to the power good output of the LM21215A-1. This pin is pulled up through a 10
k
k
Ω
pull-up resistor to VIN.
AC INJ
This terminal block allows the user to insert an AC injection signal across a 49.9
Ω
resistor for open loop
gain bode measurements. A jumper shorts out this resistor when it is not needed.
SWITCH
This terminal allows easy probing of the switch node. Do not apply any external voltage source to this
pin.
pin.
SYNC
This terminal connects to the SYNC pin of the LM21215A-1. The regulator can sychronize the SWITCH
pin to a SYNC signal with a frequency between 300kHz and 1.5MHz. If this pin is left open, the switching
frequency will default to 500kHz.
pin to a SYNC signal with a frequency between 300kHz and 1.5MHz. If this pin is left open, the switching
frequency will default to 500kHz.
VIN_SENSE+,
These terminals allow a sense connection on the board for accurate V
IN
and V
OUT
measurements,
VIN_SENSE-
respectively.
VOUT_SENSE+,
VOUT_SENSE-
IDAC
This terminal connects to the LM10010 IDAC output (IDAC_OUT).
PEN
This terminal connects to the enable pin of the LM10010. This terminal can be left floating or driven
externally. If left floating, a 2 µA current source will pull the pin high, thereby enabling the device. If
driven externally, a voltage typically less than 1.2V will disable the device.
externally. If left floating, a 2 µA current source will pull the pin high, thereby enabling the device. If
driven externally, a voltage typically less than 1.2V will disable the device.
FB
This jumper connects the LM10010 output to the feedback node of the LM21215A-1. If the LM10010 is
used to control the output voltage, then this jumper is required. If the LM10010 is to be evaluated alone,
then the IDAC_OUT current can be observed at the IDAC connection by removing the jumper.
used to control the output voltage, then this jumper is required. If the LM10010 is to be evaluated alone,
then the IDAC_OUT current can be observed at the IDAC connection by removing the jumper.
P1
This terminal block is used to connect the LM10010 evaluation board with the communications dongle.
P2
This terminal block controls the source of power for the LM10010. If a jumper is connected between pins
1 and 2, then the LM10010 supply comes from PVIN. If the jumper is connected from pins 2 and 3, then
the LM10010 derives power from an external connection to VDD.
1 and 2, then the LM10010 supply comes from PVIN. If the jumper is connected from pins 2 and 3, then
the LM10010 derives power from an external connection to VDD.
VDD
This terminal can be used as an alternate power source for the LM10010 though terminal block P2.
4
AN-2176 LM10010 Evaluation Board
SNVA498B – July 2011 – Revised May 2013
Copyright © 2011–2013, Texas Instruments Incorporated