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LTC3300-2_15 Datasheet, PDF (15/42 Pages) Linear Technology – Addressable High Efficiency Bidirectional Multicell Battery Balancer
LTC3300-2
OPERATION
charge from the highest voltage cell(s) in the stack to other
lower voltage cells in the stack (active balancing). This
can be very efficient (in terms of charge recovery) for the
case where only a few cells in the overall stack are high,
but will be very inefficient (and time consuming) for the
case where only a few cells in the overall stack are low. A
bidirectional active balancing approach, such as employed
by the LTC3300-2, is needed to achieve minimum balanc-
ing time and maximum charge recovery for all common
cell capacity errors.
Synchronous Flyback Balancer
The balancing architecture implemented by the LTC3300‑2
is bidirectional synchronous flyback. Each LTC3300-2
contains six independent synchronous flyback controllers
that are capable of directly charging or discharging an
individual cell. Balance current is scalable with external
components. Each balancer operates independently of
the others and provides a means for bidirectional charge
transfer between an individual cell and a larger group of
adjacent cells. Refer to Figure 2.
VCC
ICHARGE
VTOP_OF_STACK
+ CELL N
Single-Cell Discharge Cycle for Cell 1
IPRIMARY
IPEAK_PRI = 2A
(I1P = 50mV)
ILOAD
5µs
t
2A
Single-Cell Charge Cycle for Cell 1
ISECONDARY
IPEAK_SEC = 2A
(I1S = 50mV)
t
~417ns
2A
+ ISECONDARY
+
CELL 13
(48V)
CELL 12
VSECONDARY
+
IPRIMARY
T:1•
LPRI
+
10µH
•
VPRIMARY
CELL 2
(4V)
CELL 1
G1S
G1P
I1S
RSNS_SEC
25mΩ
I1P
RSNS_PRI
25mΩ
–ISECONDARY
52.05V
t
~417ns
52V
–IPRIMARY
5µs
50mV
48V
VPRIMARY
52V
VSECONDARY
4V 50mV
4V
t
48V
50mV
48V
52V
50mV
51.95V
VSECONDARY
50mV
t
VPRIMARY
4V
50mV
t
52V
48V
t
4V
t
33002 F02
Figure 2. Synchronous Flyback Balancing Example with T = 1, S = 12
For more information www.linear.com/LTC3300-2
33002f
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