Table 2-5 Recommended Operating Conditions for
BQ25853EVM
|
Description |
MIN |
TYP |
MAX |
UNIT |
| VIN (J1) |
Input voltage to the EVM |
4.2 |
|
55(1) |
V |
| VOUT (J3) |
Output voltage of the EVM |
3.3 |
|
55(1) |
V |
| ILIM_HIZ (J1) |
Input current of the EVM |
|
|
10(3)(4) |
A |
| ICHG (J3) |
Output current of the EVM |
|
|
10(3) |
A |
| Regulator output power |
Output power of the EVM |
|
|
300(3) |
W |
| EXT_DRV (J6) |
Voltage applied to DRV_SUP pin of
the regulator |
4 |
|
11 |
V |
| IAC Sense Resistor |
Input current sense
resistor |
2 |
5(5) |
10 |
mΩ |
| EVM Operating Ambient Temperature
(TA) |
|
|
25(2) |
|
°C |
(1) Due to
the high di/dt and dv/dt electrical flow
associated with switch-mode power supplies, nodes
on the EVM can have a high spike above the input
voltage (in buck mode) or output voltage (in boost
mode) level. Switch node voltage can swing up to
the "input or output + inductive spike" level.
High side gate drives can swing up to the "switch
node voltage + 11V (DRV_SUP supply voltage
dependent) + gate drive inductive spike" level.
Safety precautions must be observed at all
times.
(2) Connectors, bump-ons, jumpers on the EVM are not
a good choice for evaluation under temperature
greatly deviated from room temperature of 25°C.
Please refer to BOM for temperature rating of
board components.
(3) Thermal
monitoring (for example, using a thermal camera)
is recommended if power stage output current >
5A or total output power > 100W.
(4) Default
EVM input current limit is disabled through the
ILIM_HIZ pin. The current limiting feature can be
disabled by setting EN_ILIM_HIZ_PIN bit to '0',
changing ILIM_HIZ pin resistor, or shorting
ILIM_HIZ pin to PGND through JP11. The current
limiting feature can be enabled through installing
a sense resistor on the pad for R2 and removing
resistors R1000 and R1001
(5) The input
sense resistor is optional and the sense resistor
has been removed.