LTC1558CGN-3.3 Linear Technology, LTC1558CGN-3.3 Datasheet - Page 13

LTC1558CGN-3.3

Manufacturer Part Number

LTC1558CGN-3.3

Description

IC BACKUP BATT CNTRLR3.3V 16SSOP

Manufacturer

Linear Technology

Type

Charge Controllerr

Datasheet

1.LTC1558CS8-3.3.pdf (20 pages)

Specifications of LTC1558CGN-3.3

Function

Back-Up Management

Battery Type

Nickel Cadmium (NiCd)

Voltage - Supply

2.9 V ~ 3.46 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

16-SSOP (0.150", 3.90mm Width)

Output Current

330mA

Output Voltage

1.2V

Operating Supply Voltage (min)

2.9V

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.465V

Operating Temp Range

0C to 70C

Package Type

SSOP N

Mounting

Surface Mount

Pin Count

Operating Temperature Classification

Commercial

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC1558CGN-3.3

Manufacturer:

Quantity:

10 000

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APPLICATIONS

terminate backup operation and remain off until the main

power supply returns. It then runs a fast recharge cycle to

recharge the backup cell. An onboard low-battery com-

parator in the 16-pin GN or SO package provides an early

warning signal when the backup cell drops below 1V.

The UVLO circuit also trips if the LTC1558’s V

sory circuit detects that V

tions. Once the UVLO circuit trips, the LTC1558 asserts

the RESET pins until the V

then remain off until V

rated output voltage. During power-up from UVLO, the

LTC1558 asserts the RESET pins until the (V

threshold. Once V

remain asserted for another 200ms (“hard” reset) before

being released to inform the system to start operating.

Reset Operation

The LTC1558 includes an onboard pushbutton reset switch

controller. If the CTL pin is pulled to ground (< 250mV) by

a pushbutton or an open-drain output, the LTC1558 gen-

erates a pulse at the RESETpins after the trailing edge of

RESET

CTL

voltage due to overload or output short-circuit condi-

“SOFT” PUSHBUTTON RESET AT CTL

A. CTL < 0.25V FOR LESS THAN 20ms

B. CTL > 0.25V FOR MORE THAN 20ms

“HARD” PUSHBUTTON RESET AT CTL

CTL < 0.25V FOR MORE THAN 2s

20ms DEBOUNCE AT FALLING AND RISING RESET EDGE

Figure 5. Pushbutton Resets

DEBOUNCE

20ms

exceeds (V

CTL

20ms

CTL

> 2s

INFORMATION

rises to within (V

< 20ms

drops below – 9% of the rated

voltage drops below 1V. It will

– 6%), the RESET pins

100 s

> 0.25V

20ms

200ms

– 6%) of the

20ms < t

supervi-

– 6%)

100 s

CTL

> 0.25V

1558 F05

< 2s

the CTL signal. A short (less than 2s) low going signal at

CTL will generate a “soft” reset (100 s) pulse at the RESET

pins. A low CTL signal for more than 2s will generate a

“hard” reset pulse at its RESETpins. During “hard” reset,

the LTC1558 will disable the boost converter if it is in

backup mode. All signals at the CTL pin are debounced for

20ms to prevent multiple resets, allowing the CTL pin to be

connected directly to a pushbutton to ground.

The RESET pin is an open-drain output that requires an

external pull-up resistor. The RESET pin is a TTL-compat-

ible CMOS output.

Shutdown

The 16-pin LTC1558 has a TTL-compatible input, SHDN,

that shuts down the whole chip, asserts the RESET pins

and places the CTL, V

states. The SHDN pin has an internal pull-up that ensures

the chip will not shut down if the pin is left floating. The

SHDN pin typically draws 8 A when pulled low at V

The chip consumes less than 50 A during shutdown while

Although there is no SHDN pin for the SO-8 package, the

user can shut down the part by pulling CTL to ground. The

chip enters “hard” reset leaving only the bandgap and

comparators alive. The charger and the boost converter

shut off completely. Note that the backup cell slowly

discharges through R

Inductor Selection

The LTC1558 is designed to operate with a recommended

inductor value of 22 H ( 20%) with < 0.2 DC resistance.

Using inductor values higher than 22 H will deliver more

output power but will cause the gas gauge counter to

count inaccurately and under recharge the backup cell. At

the same time, the N-channel transistor timer will limit the

peak current if the charging time becomes overextended

due to the higher inductor value. Using inductor values

lower than 22 H will degrade the boost converter’s maxi-

mum output power and cause the gas gauge counter to

overcharge the backup cell. Table 2 lists the recom-

mended surface mount inductor part numbers.

is still alive.

LTC1558-3.3/LTC1558-5

BAK

EXT

and SW pins into high impedance

in this mode.

= 5V.

LTC1558CGN-3.3 Linear Technology, LTC1558CGN-3.3 Datasheet - Page 13

LTC1558CGN-3.3

Specifications of LTC1558CGN-3.3

Available stocks

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