LT3652HVEDD-PBF LINER [Linear Technology], LT3652HVEDD-PBF Datasheet - Page 16

LT3652HVEDD-PBF

Manufacturer Part Number

LT3652HVEDD-PBF

Description

Power Tracking 2A Battery Charger

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3652HVEDD-PBF.pdf (24 pages)

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LT3652HV

APPLICATIONS INFORMATION

power tracking (MPPT) application. As the temperature

characteristic for a typical solar panel V

linear, a simple solution for tracking that characteristic can

be implemented using an LM234 3-terminal temperature

sensor. This creates an easily programmable, linear tem-

perature dependent characteristic.

In the circuit shown in figure 8,

Where: TC = temperature coefficient (in V/°C), and

For example, given a common 36-cell solar panel that has

the following specified characteristics:

Open Circuit Voltage (V

Maximum Power Voltage (V

Open-Circuit Voltage Temperature Coefficient (V

–78mV/°C

As the temperature coefficient for V

of V

(TC) of –78mV/°C and the specified peak power voltage

calculate the appropriate resistor values for the tempera-

ture compensation network in Figure 8. With R

to 1000Ω, then:

IN2

IN1

MP(25°C)

= 24.4k

Figure 8. MPPT Temperature Compensation Network

SET

IN1

IN2

= R

= –R

, the specified temperature coefficient for V

IN1

= –1k • (–0.078 • 4405 ) = 344k

= 1k

= 344k/({[17.6 + 344k • (0.0674/1k)]/2.7} – 1)

SET

/({[V

MP(25°C)

) of 17.6V can be inserted into the equations to

• (TC • 4405), and

MP(25°C)

IN1

IN2

= maximum power voltage at 25°C

+ R

–

LM234

IN1

) = 21.7V

• (0.0674/R

) = 17.6V

SET

LT3652HV

IN_REG

SET

3658 F08

is similar to that

voltage is highly

)]/V

IN_REG

SET

) =

equal

} – 1)

Figure 9. Lead-Acid 6-Cell Float Charge Voltage vs

Temperature Has –19.8mV/°C Characteristic Using LM234 with

Feedback Network

Battery Voltage Temperature Compensation

Some battery chemistries have charge voltage require-

ments that vary with temperature. Lead-acid batteries in

particular experience a significant change in charge volt-

age requirements as temperature changes. For example,

manufacturers of large lead-acid batteries recommend

a float charge of 2.25V/cell at 25°C. This battery float

voltage, however, has a temperature coefficient which is

typically specified at –3.3mV/°C per cell.

In a manner similar to the MPPT temperature correction

outlined previously, implementation of linear battery

charge voltage temperature compensation can be ac-

complished by incorporating an LM234 into the output

feedback network.

For example, a 6-cell lead acid battery has a float charge

voltage that is commonly specified at 2.25V/cell at 25°C,

or 13.5V, and a –3.3mV/°C per cell temperature coefficient,

or –19.8mV/°C. Using the feedback network shown in

Figure 9, with the desired temperature coefficient (TC)

LT3652HV

14.3

14.2

14.0

13.8

13.6

13.4

13.2

13.0

12.8

12.6

–10

BAT

215k

210k

FB3

FB1

TEMPERATURE (°C)

43k

2.4k

FB2

SET

–19.8mV/°C

LM234

LEAD-ACID

BATTERY

6-CELL

–

3652 F09b

3652 F09a

3652hvf

LT3652HVEDD-PBF LINER [Linear Technology], LT3652HVEDD-PBF Datasheet - Page 16

LT3652HVEDD-PBF

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