LTC4100EG#TRPBF Datasheet LTC4100EG#TRPBF, LTC4100EG#PBF | P4-P6

LTC4100

4100fc

For more information www.linear.com/LTC4100

elecTrical characTerisTics

The l denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C. V

DCIN

= 20V, V

= 3.3V, V

BAT

= 12V unless otherwise noted. (Note 4)

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

AC Present Comparator

ACP

DCDIV Threshold V

DCDIV

Rising from 1V to 1.4V

●

1.14 1.20 1.26 V

DCDIV Hysteresis 25 mV

DCDIV Input Bias Current V

DCDIV

= 1.2V –1 1 µA

ACP V

ACP

= –2mA 2 V

ACP V

ACP

= 1mA 0.5 V

DCDIV to ACP Delay V

DCDIV

= 1.3V 10 µs

SafetySignal Decoder

SafetySignal Trip (RES_COLD/RES_OR) R

THA

= 1130Ω ±1%, C

= 1nF (Note 6)

THB

= 54.9kΩ ±1%

●

95 100 105 kΩ

SafetySignal Trip (RES_IDEAL/RES_COLD) R

THA

= 1130Ω ±1%, C

= 1nF (Note 6)

THB

= 54.9kΩ ±1%

●

28.5 30 31.5 kΩ

SafetySignal Trip (RES_HOT/RES_IDEAL) R

THA

= 1130Ω ±1%, C

= 1nF (Note 6)

THB

= 54.9kΩ ±1%

●

2.85 3 3.15 kΩ

SafetySignal Trip (RES_UR/RES_HOT) R

THA

= 1130Ω ±1%, C

= 1nF (Note 6)

THB

= 54.9kΩ ±1%

●

425 500 575 Ω

Time Between SafetySignal Measurements DCDIV = 1.3V

DCDIV = 1V

250

DACs

Charging Current Resolution Guaranteed Monotonic Above I

MAX

/16 10 Bits

Charging Current Granularity R

ILIM

= 0

ILIM

= 10k ±1%

ILIM

= 33k ±1%

ILIM

= Open (or Short to V

)

Wake-Up Charging Current (I

WAKE-UP

) All Values of R

ILIM

All Values of R

VLIM

80 (Note 5) mA

Charging Current Limit

CSP – BAT

ILIM

0 (0-1A)

Charging Current = 0x03FF (0x0400 Note 7)

97.3 107.3 mV

ILIM

10k ±1% (0-2A)

Charging Current = 0x07FE (0x0800 Note 7)

97.3 107.3 mV

ILIM

33k ±1% (0-3A)

Charging Current = 0x0BFC (0x0C00 Note 7)

72.3 82.3 mV

ILIM

0pen (or Short to V

) (0-4A)

Charging Current = 0x0FFC (0x1000 Note 7)

97.3 107.3 mV

Charging V

oltage Resolution Guaranteed Monotonic (2.9V ≤ V

BAT

≤

28V) 11 Bits

Charging Voltage Granularity 16 mV

Charging Voltage Limit R

VLIM

= 0

Charging Voltage = 0x2260 (Note 7)

8.730 8.800 8.870 V

VLIM

= 10k ±1%

Charging Voltage = 0x3330 (Note 7)

12.999 13.104 13.209 V

VLIM

= 33k ±1%

Charging Voltage = 0x4400 (Note 7)

17.269 17.408 17.547 V

VLIM

= 100k ±1%

Charging Voltage = 0x5400 DCIN ≥ 22V

(Note 7)

21.538

21.712 21.886 V

VLIM

= 0pen (or Short to V

)

Charging Voltage = 0x6D60 DCIN ≥ 29V

(Note 7)

27.781

28.006 28.231 V

LTC4100

4100fc

For more information www.linear.com/LTC4100

elecTrical characTerisTics

The l denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

= 25°C. V

DCIN

= 20V, V

= 3.3V, V

BAT

= 12V unless otherwise noted. (Note 4)

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

Logic Levels

SCL/SDA Input Low Voltage V

= 3V and V

= 5.5V

●

0.8 V

SCL/SDA Input High Voltage V

= 3V and V

= 5.5V

●

2.1 V

SDA Output Low Voltage I

PULL-UP

= 350µA

●

0.4 V

SCL/SDA Input Current V

SDA

, V

SCL

= V

–1 1 µA

SCL/SDA Input Current V

SDA

, V

SCL

= V

–1 1 µA

SMBALERT Output Low Voltage I

PULL-UP

= 500µA

●

0.4 V

SMBALERT Output Pull-Up Current V

SMBALERT

= V

–17.5 –10 –3.5 µA

LEAK

SDA/SCL/SMBALERT Power Down Leakage V

SDA

, V

SCL

, V

SMBALERT

= 5.5V, V

= OV

●

–2 2 µA

CHGEN Output Low Voltage I

= 100µA

●

0.5 V

CHGEN Output Pull-Up Current V

CHGEN

= V

–17.5 –10 –3.5 µA

CHGEN Input Low Voltage

●

0.9 V

CHGEN Input High Voltage V

= 3V

= 5.5V

●

2.5

3.9

Power-On Reset Duration V

Ramp from 0V to >3V in <5µs 100 µs

SMBus Timing (Refer to System Management Bus Specification, Revision 1.1, Section 2.1 for Timing Diagrams)

HIGH

SCL Serial Clock High Period I

PULL-UP

= 350µA, C

LOAD

= 250pF,

= 9.31k, V

= 3V and V

= 5.5V

●

4 µs

LOW

SCL Serial Clock Low Period I

PULL-UP

= 350µA, C

LOAD

= 250pF,

= 9.31k, V

= 3V and V

= 5.5V

●

4.7 15000 µs

SDA/SCL Rise Time C

LOAD

= 250pF, R

= 9.31k, V

= 3V and

= 5.5V

●

1000 ns

SDA/SCL Fall Time C

LOAD

= 250pF, R

= 9.31k, V

= 3V and

= 5.5V

●

300 ns

SU:STA

Start Condition Setup Time V

= 3V and V

= 5.5V

●

4.7 µs

HD:STA

Start Condition Hold Time V

= 3V and V

= 5.5V

●

4 µs

HD:DAT

SDA to SCL Falling-Edge Hold Time, Slave

Clocking in Data

= 3V and V

= 5.5V

●

300 ns

TIMEOUT

Time Between Receiving Valid ChargingCurrent()

and ChargingVoltage() Commands

= 3V and V

= 5.5V

●

140 175 210 sec

Note 1: Stresses beyond those listed under Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to any Absolute

Maximum Rating condition for extended periods may affect device

reliability and lifetime.

Note 2: See Test Circuit.

Note 3: Does not include tolerance of current sense resistor.

Note 4: The LTC4100E is guaranteed to meet performance specifications

from 0°C to 70°C. Specifications over the –40°C to 85°C operating

temperature range are assured by design, characterization and correlation

with statistical process controls.

Note 5: Current accuracy dependent upon circuit compensation and sense

resistor.

Note 6: C

is defined as the sum of capacitance on THA, THB and

SafetySignal.

Note 7: The corresponding overrange bit will be set when a HEX value

greater than or equal to this value is used.

LTC4100

4100fc

For more information www.linear.com/LTC4100

Typical perForMance characTerisTics

Disconnect/Reconnect Battery

(Load Dump)

Battery Leakage Current

vs Battery Voltage Efficiency at 19V V

DCIN

Efficiency at 12.6V with 15V V

DCIN

SMBus Accelerator Operation Low Current Operation

INFET Response Time to

Reverse Current V

OUT

vs I

OUT

PWM Frequency vs Duty Cycle

TEST PERFORMED ON DEMOBOARD

= 15VDC

CHARGER = ON

CHARGE

= <10mA

OF PFET (5V/DIV)

(REVERSE) OF

PFET (5A/DIV)

OF PFET (2V/DIV)

4100 G01

CHARGE

= 12.6V

INFET = 1/2 Si4925DY

= 0

= 0V

= 0A

1.25µs/DIV

OUTPUT CURRENT (A)

0 0.5 1.0 2.0 3.0 4.01.5 2.5 3.5 4.5

OUTPUT VOLTAGE ERROR (%)

4100 G02

DCIN = 20V

BAT

= 12.6V

–0.5

–1.0

–1.5

–2.0

–2.5

–3.0

–3.5

–4.0

–4.5

–5.0

DUTY CYCLE (V

OUT

)

0 0.1 0.2 0.4 0.6 0.90.80.3 0.5 0.7 1.0

PWM FREQUENCY (kHz)

4100 G03

PROGRAMMED CURRENT = 10%

DCIN = 15V

DCIN = 20V

DCIN = 24V

350

300

250

200

150

100

4100 G04

LOAD CURRENT = 1A, 2A, 3A

DCIN = 20V

FLOAT

= 12.6V

FLOAT

1V/(DIV)

LOAD

STATE

DISCONNECT

RECONNECT

1A STEP

3A STEP

1A STEP

BATTERY VOLTAGE (V)

0 5 10 15 20 25 30

BATTERY LEAKAGE CURRENT (µA)

4100 G05

VDCIN = 0V

CHARGING CURRENT (A)

1.000.50 1.50 2.00 2.50 3.00

EFFICIENCY (%)

4100 G06

16.8V

12.6V

100

CHARGING CURRENT (A)

1.000.50 1.50 2.00 2.50 3.00

EFFICIENCY (%)

4100 G07

100

1µs/DIV

4100 G08

PULLUP

= 15k

LTC4100

= 5V

BUS

= 200pF

= 25°C

PROGRAMMED CURRENT (A)

MEASURED CURRENT (A)

0.5

0.3

0.4

0.2

0.1

–0.1

0.1

4100 G09

0.2

0.40.3

= 5V

TEMP = 27°C

DCIN = 15V

LOW

CURRENT

MODE

PROGRAMMED

CURRENT

NO LOW

CURRENT

MODE

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30

LTC4100EG#TRPBF

Mfr. #:

Buy LTC4100EG#TRPBF

Manufacturer:

Analog Devices / Linear Technology

Description:

Battery Management Smart-Battery Charger with SMBus Interface

Lifecycle:

New from this manufacturer.

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LTC4100EG#TRPBF

LTC4100EG#TRPBF

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