DS2784G+ Maxim Integrated Products, DS2784G+ Datasheet - Page 40

DS2784G+

Manufacturer Part Number

DS2784G+

Description

IC FUEL GAUGE STND-ALONE 14-TDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.DS2784G.pdf (43 pages)

Specifications of DS2784G+

Function

Fuel, Gas Gauge/Monitor

Battery Type

Lithium-Ion (Li-Ion), Lithium-Polymer (Li-Pol)

Voltage - Supply

2.5 V ~ 4.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

14-TDFN

Product

Fuel Gauges

Operating Supply Voltage

2.5 V to 4.6 V

Supply Current

85 uA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Charge Safety Timers

Yes

Mounting Style

SMD/SMT

Temperature Monitoring

Yes

Uvlo Start Threshold

2.4 V

Uvlo Stop Threshold

2.5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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I/O SIGNALING

The 1-Wire bus requires strict signaling protocols to ensure data integrity. The four protocols used by the DS2784

are as follows: the initialization sequence (reset pulse followed by presence pulse), write 0, write 1, and read data.

The bus master initiates all these types of signaling except the presence pulse.

The initialization sequence required to begin any communication with the DS2784 is shown in Figure 14. A

presence pulse following a reset pulse indicates that the DS2784 is ready to accept a net address command. The

bus master transmits (Tx) a reset pulse for t

mode (Rx). The 1-Wire bus line is then pulled high by the pullup resistor. After detecting the rising edge on the DQ

pin, the DS2784 waits for t

Figure 14. 1-Wire Initialization Sequence

WRITE-TIME SLOTS

A write-time slot is initiated when the bus master pulls the 1-Wire bus from a logic-high (inactive) level to a logic-low

level. There are two types of write-time slots: write 1 and write 0. All write-time slots must be t

1s minimum recovery time, t

write 0 occurs. The sample window is illustrated in Figure 15. For the bus master to generate a write-1 time slot, the

bus line must be pulled low and then released, allowing the line to be pulled high less than t

write time slot. For the host to generate a write 0 time slot, the bus line must be pulled low and held low for the

duration of the write-time slot.

READ-TIME SLOTS

A read-time slot is initiated when the bus master pulls the 1-Wire bus line from a logic-high level to a logic-low level.

The bus master must keep the bus line low for at least 1s and then release it to allow the DS2784 to present valid

data. The bus master can then sample the data t

slot, the DS2784 releases the bus line and allows it to be pulled high by the external pullup resistor. All read-time

slots must be t

timing specifications in the Electrical Characteristics table for more information.

LOW0_MIN

after the line falls. If the line is high when sampled, a write 1 occurs. If the line is low when sampled, a

SLOT

LINE TYPE LEGEND:

in duration with a 1s minimum recovery time, t

PDH

REC

BUS MASTER ACTIVE LOW

BOTH BUS MASTER AND

DS2784 ACTIVE LOW

RSTL

and then transmits the presence pulse for t

, between cycles. The DS2784 samples the 1-Wire bus line between t

PDH

RSTL

RDV

. The bus master then releases the line and goes into Receive

from the start of the read-time slot. By the end of the read-time

40 of 43

PDL

DS2784 ACTIVE LOW

RESISTOR PULLUP

REC

RSTH

PDL

, between cycles. See Figure 15 and the

RDV

SLOT

after the start of the

in duration with a

PACK+

PACK-

LOW1_MAX

and

DS2784G+ Maxim Integrated Products, DS2784G+ Datasheet - Page 40

DS2784G+

Specifications of DS2784G+

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