MAX712CPE Maxim Integrated Products, MAX712CPE Datasheet - Page 8
MAX712CPE
Manufacturer Part Number
MAX712CPE
Description
IC BATT FASTCHRG NICD/NIMH 16DIP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX713ESET.pdf
(17 pages)
Specifications of MAX712CPE
Function
Charge Management
Battery Type
Nickel Cadmium (NiCd), Nickel Metal-Hydride (NiMH)
Voltage - Supply
4.5 V ~ 5.5 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Through Hole
Package / Case
16-DIP (0.300", 7.62mm)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MAX712CPE
Manufacturer:
MAXIM
Quantity:
5 510
Company:
Part Number:
MAX712CPE
Manufacturer:
NS
Quantity:
5 510
Part Number:
MAX712CPE
Manufacturer:
MAXIM/美信
Quantity:
20 000
The MAX712/MAX713 fast charge NiMH or NiCd batter-
ies by forcing a constant current into the battery. The
MAX712/MAX713 are always in one of two states: fast
charge or trickle charge. During fast charge, the
current level is high; once full charge is detected, the
current reduces to trickle charge. The device monitors
three variables to determine when the battery reaches
full charge: voltage slope, battery temperature, and
charge time.
NiCd/NiMH Battery
Fast-Charge Controllers
Figure 2. Typical Charging Using Voltage Slope
Figure 3. Typical Charging Using Temperature
8
1. NO POWER TO CHARGER
2. CELL VOLTAGE LESS THAN 0.4V
3. FAST CHARGE
4. TRICKLE CHARGE
5. CHARGER POWER REMOVED
1. NO POWER TO CHARGER
2. CELL TEMPERATURE TOO LOW
3. FAST CHARGE
4. TRICKLE CHARGE
_______________________________________________________________________________________
TLO
1.4
0.4
mA
mA
μA
THI
μA
1.5
1.3
A
A
0
1
1
2
2
Detailed Description
VOLTAGE
TEMPERATURE
3
3
TIME
TIME
4
4
5
Figure 1 shows the block diagram for the MAX712/
MAX713. The timer, voltage-slope detection, and temper-
ature comparators are used to determine full charge
state. The voltage and current regulator controls output
voltage and current, and senses battery presence.
Figure 2 shows a typical charging scenario with batteries
already inserted before power is applied. At time 1, the
MAX712/MAX713 draw negligible power from the bat-
tery. When power is applied to DC IN (time 2), the
power-on reset circuit (see the POWER
nal in Figure 1) holds the MAX712/MAX713 in trickle
charge. Once POWER
enters the fast-charge state (time 3) as long as the cell
voltage is above the undervoltage lockout (UVLO) volt-
age (0.4V per cell). Fast charging cannot start until (bat-
tery voltage)/(number of cells) exceeds 0.4V.
When the cell voltage slope becomes negative, fast
charge is terminated and the MAX712/MAX713 revert
to trickle-charge state (time 4). When power is removed
(time 5), the device draws negligible current from the
battery.
Figure 3 shows a typical charging event using tempera-
ture full-charge detection. In the case shown, the bat-
tery pack is too cold for fast charging (for instance,
brought in from a cold outside environment). During
time 2, the MAX712/MAX713 remain in trickle-charge
state. Once a safe temperature is reached (time 3), fast
charge starts. When the battery temperature exceeds
the limit set by THI, the MAX712/MAX713 revert to trick-
le charge (time 4).
Figure 4. Typical Charging with Battery Insertion
1. BATTERY NOT INSERTED
2. FAST CHARGE
3. TRICKLE CHARGE
4. BATTERY REMOVED
VREF = VLIMIT
1.5
1.4
1.3
mA
μA
A
1
-
_ON
-
_RESET goes high, the device
2
TIME
-
_ON
3
-
_RESET sig-
4
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