English
Language : 

DS2715 Datasheet, PDF (10/12 Pages) Dallas Semiconductor – NiMH Battery Pack Charge Controller
DS2715: NiMH Cell Pack Charge Controller
CURRENT REGULATION
Three basic modes of charging operation are supported by the DS2715: Offline switching through an optocoupler,
linear regulation, and DC input switched mode. The DC Switched method requires a currrent-limited power source.
Mode of operation is selected through the Mode pin. Connecting the Mode pin to VSS configures the analog block
as a transconductance amplifier for linear mode of operation. Connecting the Mode pin to the Cbias pin configures
the DS2715 as a comparator for switched mode of operation.
Current-Sense Amplifier Mode
An error amplifier block provides several options to regulate the charge current. The 20mA open-drain output can
drive a PMOS or PNP pass element for linear regulation, or the output can drive an optocoupler for isolated
feedback to a primary-side PWM controller. The SNS- pin is a remote-sense return and should be connected to the
grounded side of the sense resistor using a separate, insulated conductor. During fast charge, an error signal
between the current-sense signal (across the sense resistor) and the internal reference is produced so the voltage
across the sense resistor is maintained at VFC in a closed-loop circuit. During top-off the voltage across the sense
resistor is maintained at VTO.
Current-Sense Comparator Mode
The comparator in the DS2715 switches between ON and OFF and is capable of driving a PNP bipolar or a PMOS
transistor, enabling the use of a switched-mode power stage. Hysteresis on the comparator input provides noise
rejection. In a closed-loop regulation circuit, the comparator regulates voltage across the sense resistor to a DC
average of:
VRSNS = VFC - 0.5 x VHYS-FC = -0.107V during fast charge
VRSNS = VTO - 0.5 x VHYS-TO = -0.029V during top-off
Charge Rate Selection
The charge rate is determined by an external sense resistor connected between the SNS+ and SNS- pins. The
DS2715 will regulate the charge current to maintain a voltage drop of VFC (VFC - 0.5 x VHYS-FC in comparator mode)
across the sense resistor during fast charge. The sense resistor can therefore be selected by:
Linear Mode:
Comparator Mode:
R = VFC / Desired Fast Charge Current
R = (VFC - 0.5 x VHYS-FC) / Desired Fast Charge Current
Charge Time and Top-Off Time Selection
Pre-charge has a fixed 30 minute limit generated by an internal oscillator. Charge time and top-off time are
controlled by an external resistor from the RT pin to VSS. Resistors can be selected to support fast-charge time-out
periods of 0.5 to 6 hours and top-off charge time-out periods of 0.25 to 3 hours. If the timer expires in fast-charge,
the timer count is reset and charging proceeds to the top-off charge phase. The top-off time-out period is half of the
fast charge time-out period. If the timer expires in top-off, the DS2715 enters the DONE state. The programmed
charge time approximately follows the equation:
t = 1.5 x R / 1000
(time in minutes)
10 of 12