LTC4000-1 Datasheet, PDF(13/40 Page) Linear Technology – High Voltage High Current Controller for Battery Charging with Maximum Power Point Control

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LTC4000-1 Datasheet, PDF (13/40 Pages) Linear Technology – High Voltage High Current Controller for Battery Charging with Maximum Power Point Control

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LTC4000-1

Operation

Overview

The LTC4000-1 is designed to simplify the conversion of

any externally compensated DC/DC converter into a high

performance battery charger with PowerPath control. It

only requires the DC/DC converter to have a control or

external-compensation pin (usually named VC or ITH)

whose voltage level varies in a positive monotonic way

with its output. The output variable can be either output

voltage or output current. For the following discussion,

refer to the Block Diagram in Figure 1.

The LTC4000-1 includes four different regulation loops:

input voltage, charge current, battery float voltage and

output voltage (A4-A7). Whichever loop requires the low-

est voltage on the ITH pin for its regulation controls the

external DC/DC converter.

The input voltage regulation loop ensures that the input

voltage level does not drop below the programmed level.

The charge current regulation loop ensures that the pro-

grammed battery charge current limit (using a resistor

at CL) is not exceeded. The float voltage regulation loop

ensures that the programmed battery stack voltage (us-

ing a resistor divider from BAT to FBG via BFB) is not

exceeded. The output voltage regulation loop ensures that

the programmed system output voltage (using a resistor

divider from CSP to FBG via OFB) is not exceeded. The

LTC4000-1 also provides monitoring pins for the input

current and charge current at the IIMON and IBMON pins

respectively.

The LTC4000-1 features an ideal diode controller at the

input from the IID pin to the CSP pin and a PowerPath

controller at the output from the BAT pin to the CSN pin.

The output PowerPath controller behaves as an ideal

diode controller when not charging. When charging, the

output PowerPath controller has two modes of operation.

If VOFB is greater than VOUT(INST_ON), BGATE is driven low.

When VOFB is less than VOUT(INST_ON), a linear regulator

implements the instant-on feature. This feature provides

regulation of the BGATE pin so that a valid voltage level is

immediately available at the output when the LTC4000-1 is

charging an over-discharged, dead or short faulted battery.

The state of the ENC pin determines whether charging is

enabled. When ENC is grounded, charging is disabled and

the battery float voltage loop is disabled. Charging is enabled

when the ENC pin is left floating or pulled high (â¥1.5V)

The LTC4000-1 offers several user configurable battery

charge termination schemes. The TMR pin can be config-

ured for either C/X termination, charge timer termination or

no termination. After a particular charge cycle terminates,

the LTC4000-1 features an automatic recharge cycle if the

battery voltage drops below 97.6% of the programmed

float voltage.

Trickle charge mode drops the charge current to one

tenth of the normal charge current (programmed using a

resistor from the CL pin to GND) when charging into an

over discharged or dead battery. When trickle charging,

a capacitor on the TMR pin can be used to program a

time out period. When this bad battery timer expires and

the battery voltage fails to charge above the low battery

threshold (VLOBAT), the LTC4000-1 will terminate charging

and indicate a bad battery condition through the status

pins (FLT and CHRG).

The LTC4000-1 also includes an NTC pin, which provides

temperature qualified charging when connected to an NTC

thermistor thermally coupled to the battery pack. To enable

this feature, connect the thermistor between the NTC and

the GND pins, and a corresponding resistor from the BIAS

pin to the NTC pin. The LTC4000-1 also provides a charg-

ing status indicator through the FLT and the CHRG pins.

Aside from biasing the thermistor-resistor network, the

BIAS pin can also be used for a convenient pull up voltage.

This pin is the output of a low dropout voltage regulator

that is capable of providing up to 0.5mA of current. The

regulated voltage on the BIAS pin is available as soon as

the IN pin is within its operating range (â¥3V).

Input Ideal Diode

The input ideal diode feature provides low loss conduction

and reverse blocking from the IID pin to the CSP pin. This

reverse blocking prevents reverse current from the output

(CSP pin) to the input (IID pin) which causes unneces-

sary drain on the battery and in some cases may result

in unexpected DC/DC converter behavior.

The ideal diode behavior is achieved by controlling an

external PMOS connected to the IID pin (drain) and the

40001f

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