Texas Instruments MSP-EXP430F5529LP 사용자 설명서
Hardware
2.2.8
Isolation Jumper Block: 3.3-V and 5-V Jumpers
The 5-V VBUS and 3.3-V power rails, which are sourced to the target from the emulator, travel through
the isolation jumper block. This routing serves these functions:
the isolation jumper block. This routing serves these functions:
•
Measurement of the target's power consumption
•
Removing the emulator from the circuit when an external (non-USB) power source is used
•
Removing the F5529 target from the circuit when a different external target board is attached to the
emulator
emulator
Measuring the target's power draw is as simple as removing the 3.3-V jumper and connecting an ammeter
across it. The USB hub, emulator and dc-dc converter currents are then excluded from this measurement.
However, anything that is connected on the F5529 LaunchPad headers or power pins on the target
domain below the dotted silkscreen line are included. If precise current measurement is needed, it is
important to disconnect the backchannel UART and SBW lines in the jumper block as well.
across it. The USB hub, emulator and dc-dc converter currents are then excluded from this measurement.
However, anything that is connected on the F5529 LaunchPad headers or power pins on the target
domain below the dotted silkscreen line are included. If precise current measurement is needed, it is
important to disconnect the backchannel UART and SBW lines in the jumper block as well.
See
for more information about measuring power using these jumpers.
Sometimes you may want to use an external 3.3-V power source connected to the target's power header
pins. In this case, the 3.3-V jumper must be disconnected to avoid back-powering the emulator. See
pins. In this case, the 3.3-V jumper must be disconnected to avoid back-powering the emulator. See
for more information on this procedure.
Otherwise, in normal operation, both these jumpers should be attached.
2.2.9
Isolation Jumper Block: Emulator Connection and Application UART
MSP430F5xx devices support both standard four-wire JTAG and the two-wire Spy-Bi-Wire (SBW)
standard. The eZ-FET lite emulator on the F5529 LaunchPad supports SBW only. These two signals
travel through jumpers in the isolation block, and can be disconnected if desired. They are labeled on the
block as "SBW RST" and "SBW TEST".
standard. The eZ-FET lite emulator on the F5529 LaunchPad supports SBW only. These two signals
travel through jumpers in the isolation block, and can be disconnected if desired. They are labeled on the
block as "SBW RST" and "SBW TEST".
The backchannel UART consists of four signals: the data signals TXD and RXD, and the hardware flow
control signals RTS and CTS. All four of these signals travel through the jumper block as well and can be
disconnected.
control signals RTS and CTS. All four of these signals travel through the jumper block as well and can be
disconnected.
Reasons to open these connections:
•
When measuring current consumption, devices attached to I/O pins can consume power, influencing
the measurement. Removing the jumpers prevents this.
the measurement. Removing the jumpers prevents this.
•
The backchannel UART pins can be configured for other functionality instead of the backchannel
UART. If this is desired, it might be good to remove these jumpers, so that the emulator is not affected
by any activity that your application presents on these signals. If only two general I/Os are needed and
if hardware flow control is not needed, you might choose to remove only the hardware flow control
(RTS and CTS) jumpers and leave the TXD and RXD jumpers in place.
UART. If this is desired, it might be good to remove these jumpers, so that the emulator is not affected
by any activity that your application presents on these signals. If only two general I/Os are needed and
if hardware flow control is not needed, you might choose to remove only the hardware flow control
(RTS and CTS) jumpers and leave the TXD and RXD jumpers in place.
•
If you want to use the on-board eZ-FET lite emulator with a different target, you can remove the
jumpers and connect your target hardware to the jumper block.
jumpers and connect your target hardware to the jumper block.
2.3
Measure MSP430 Current Draw
The following steps assume that the target F5529 is to be powered from the USB host, not from an
external power source.
external power source.
1. Remove the 3V3 jumper in the isolation jumper block. Attach an ammeter across this jumper.
2. Consider the effect that the backchannel UART and any circuitry attached to the F5529 may have on
current draw. Maybe these should be disconnected, or their current sinking and sourcing capability at
least considered in the final measurement.
least considered in the final measurement.
3. Make sure there are no floating input I/Os. These cause unnecessary extra current draw. Every I/O
should either be driven out or, if an input, should be pulled or driven to a high or low level.
4. Begin target F5529 execution.
5. Measure the current. (Keep in mind that if the current levels are fluctuating, it may be difficult to get a
stable measurement. It is easier to measure quiescent states.)
20
MSP430F5529 LaunchPad™ Development Tool (MSP
‑
EXP430F5529LP)
SLAU533A – September 2013 – Revised January 2014
Copyright © 2013–2014, Texas Instruments Incorporated