Texas Instruments BQ24050 Evaluation Module: 0.8-A, Single-Input, Single-Cell Li-Ion Battery Charger BQ24055EVM BQ24055EVM Datenbogen
Produktcode
BQ24055EVM
Test Summary
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2. Verify that the setup was performed correctly and turn on the power supply, which was preset to 5
VDC, and 1 A for the current-limit setting. The current was programmed for ~540 mA fast charge, or
~108 mA if in pre-charge, from the factory.
~108 mA if in pre-charge, from the factory.
3. Shunt JMP6 (bq24050/2) and JMP7 (bq24055) short the D+ and D– input together simulating an
adaptor connection. After applying input power the USB detection routine will detect an adaptor and
start charging as if an adaptor is applied. One will notice about 540ma once the battery voltage
charges above the V
start charging as if an adaptor is applied. One will notice about 540ma once the battery voltage
charges above the V
(LOWV)
threshold. The ISET2 pin voltage is proportional to the amount of
programmed current delivered to the OUT pin. The voltage on the ISET2 pin is 1.5V when the output
current is 100% of the programmed value.
current is 100% of the programmed value.
4. The bq24050/2/5 enters preconditioning mode if the battery is below the V
(LOWV)
threshold. In this
mode, the bq24050/2/5 pre-charges the battery with a low current programmed by the PRE-TERM
resistor (typically set to 10% of fast charge) until the battery voltage reaches the V
resistor (typically set to 10% of fast charge) until the battery voltage reaches the V
(LOWV)
threshold or
until the pre-charge timer expires. If the timer expires, then the charge current is terminated and the
bq24050/2/5 enters fault mode. The CHG LED turns off when in timer fault mode (Toggling input
power, toggling TS low or battery replacement resets fault mode).
bq24050/2/5 enters fault mode. The CHG LED turns off when in timer fault mode (Toggling input
power, toggling TS low or battery replacement resets fault mode).
5. Once the battery voltage is above the V(LOWV) threshold, the battery enters fast-charge constant
current mode. This EVM is programmed, by the ISET resistor for 0.54 A of fast-charging current. The
IC should be in this mode since the USB detection routine detected an adaptor.
IC should be in this mode since the USB detection routine detected an adaptor.
6. Apply a shunt to JMP3 ISET2-HI and see (charge current drops) the IC go into USB500 mode, remove
the shunt and see the mode change to USB100, place the shunt between ISET2 and GND to see the
programmed current mode. The USB detection routine always sets the mode at power-up and the user
(processor) has to change the state of the ISET2 pin for the IC to unlatch the charge mode and set
according to the ISET2 pin.
programmed current mode. The USB detection routine always sets the mode at power-up and the user
(processor) has to change the state of the ISET2 pin for the IC to unlatch the charge mode and set
according to the ISET2 pin.
7. Once the battery reaches the voltage regulation threshold (4.2 V), the voltage control loop takes over
and the current tapers down as the battery reaches its full capacity.
8. The battery remains at the fast charge mode until either the charge timer expires or the charge
termination current threshold is reached.
9. Once the charge terminates, the CHG LED will turn off.
10. Remove JMP5 (TS) and the charger will turn on. This mode is Termination and Timer Disable Mode
10. Remove JMP5 (TS) and the charger will turn on. This mode is Termination and Timer Disable Mode
(TTDM). This allows continuous power applied from the input to the output, regulated to 4.2V with a
maximum current programmed by the ISET resistor (may be restricted further if in USB mode). The
system can operate without a battery in this mode as long as the system does not exceed the supplied
input current.
maximum current programmed by the ISET resistor (may be restricted further if in USB mode). The
system can operate without a battery in this mode as long as the system does not exceed the supplied
input current.
11. If the battery discharges to the recharge threshold, the charger starts fast charging, but the CHG LED
will not come on for the subsequent chargers. Cycling the input power, replacing the battery, or
toggling the TS pin low will start a new charge with the CHG LED on.
toggling the TS pin low will start a new charge with the CHG LED on.
12. Discharge the battery below 4.0 V and above 3.0 V, remove Shunt 6 (bq24050/2) or Shunt 7
(bq24055). Remove and re-apply input power and verify the USB mode is detected. Remove shunt
from JMP3 and replace on JMP3: ISET2-GND. Verify current is set to the ISET resistor programmed
level.
from JMP3 and replace on JMP3: ISET2-GND. Verify current is set to the ISET resistor programmed
level.
13. Procedure may be repeated using a mini USB cable connected to J3 on the EVM, and to either a USB
port or adapter for the power source. Remove shunt JMP6 (bq24050/2) or JMP7 (bq24055), and move
JMP1 to IN_IC / USB +5V prior to applying power with the USB mini cable.
JMP1 to IN_IC / USB +5V prior to applying power with the USB mini cable.
NOTE:
Loads across the battery can affect termination. The pre-term pin can be adjusted to offset
the system current. See data sheet for more details.
4.4
Alternate Test Methods
A 4 quadrant power supply which can source and sink current can be used in place of the battery pack to
evaluate the charger. It will allow each transfer between pre-charge, constant-current and constant voltage
fast charge. Keep leads short to avoid adding too much inductance which make cause an interaction
between the power supply and charger. A large capacitor across the output will help cancel the inductance
if long leads are necessary.
evaluate the charger. It will allow each transfer between pre-charge, constant-current and constant voltage
fast charge. Keep leads short to avoid adding too much inductance which make cause an interaction
between the power supply and charger. A large capacitor across the output will help cancel the inductance
if long leads are necessary.
4
0.8-A, Single-Input, Single-Cell Li-Ion Battery Charger
SLUU378 – September 2009
Copyright © 2009, Texas Instruments Incorporated