LTC6802IG-1#TRPBF Linear Technology, LTC6802IG-1#TRPBF Datasheet - Page 30

LTC6802IG-1#TRPBF

Manufacturer Part Number

LTC6802IG-1#TRPBF

Description

IC MONITOR BATT STACK MC 44-SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC6802IG-1PBF.pdf (38 pages)

Specifications of LTC6802IG-1#TRPBF

Function

Battery Monitor

Battery Type

Lithium-Ion (Li-Ion)

Voltage - Supply

4 V ~ 50 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

44-SOP (0.200", 5.30mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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LTC6802-1

APPLICATIONS INFORMATION

Cell-Voltage Filtering

The LTC6802-1 employs a sampling system to perform

its analog-to-digital conversions and provides a conver-

sion result that is essentially an average over the 0.5ms

conversion window, provided there isn’t noise aliasing with

respect to the delta-sigma modulator rate of 512kHz. This

indicates that a lowpass filter with useful attenuation at

500kHz may be beneficial. Since the delta-sigma integra-

tion bandwidth is about 1kHz, the filter corner need not

be lower than this to assure accurate conversions.

Series resistors of 100Ω may be inserted in the input

paths without introducing meaningful measurement

error, provided only external discharge switch FETs are

being used. Shunt capacitors may be added from the cell

inputs to V

Note that this filtering is not compatible with use of the

internal discharge switches to carry current since this

would induce settling errors at the time of conversion as

any activated switches temporarily open to provide Kelvin

mode cell sensing. As a discharge switch opens, cell wiring

resistance will also form a small voltage step (recovery

of the small IR drop), so keeping the frequency cutoff of

the filter relatively high will allow adequate settling prior

to the actual conversion. A guard time of about 60μs is

provided in the ADC timing, so a 16kHz LP is optimal and

offers about 30dB of noise rejection.

No resistor should be placed in series with the V

Because the supply current flows from the V

resistance on this pin could generate a significant conver-

sion error for CELL1.

Figure 13. Adding RC Filtering to the Cell Inputs

(One Cell Connection Shown)

–

, creating RC filtering as shown in Figure 13.

100Ω

100nF

7.5V

C(n)

S(n)

C(n – 1)

68021 F13

–

pin, any

–

pin.

The V

monitored cell group. A decoupling network of 20Ω /100nF

is recommended.

READING EXTERNAL TEMPERATURE PROBES

Using Dedicated Inputs

The LTC6802-1 includes two channels of ADC input, V

and V

(tempco about –4%/°C generally) or diodes (–2.2mV/°C

typical) located within the cell array. Sensors can be

powered directly from V

60μA total).

For sensors that require higher drive currents, a buffer op

amp may be used as shown in Figure 15. Power for the

sensor is actually sourced indirectly from the V

Figure 15. Buffering V

TEMP2

Figure 14. Driving Thermistors Directly from V

pin is powered from the top cell potential of the

LTC6802-1

, that are intended to monitor thermistors

TEMP2

TEMP1

TEMP2

TEMP1

REG

REF

REG

REF

−

REF

for Higher-Current Sensors

as shown in Figure 14 (up to

1μF

–

LT6000

1μF

NTC

10k

100k

10k

100k

NTC

68021 F14

NTC

10k

REF

100k

68021 F15

10k

100k

NTC

REG

TEMP1

68021fa

LTC6802IG-1#TRPBF Linear Technology, LTC6802IG-1#TRPBF Datasheet - Page 30

LTC6802IG-1#TRPBF

Specifications of LTC6802IG-1#TRPBF

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