DS1923-F5#W Maxim Integrated Products, DS1923-F5#W Datasheet - Page 42

DS1923-F5#W

Manufacturer Part Number

DS1923-F5#W

Description

Board Mount Temperature Sensors Hygrochron Temp/Hum Logger w/8KB DataLog

Manufacturer

Maxim Integrated Products

Datasheet

1.DS1923-F5.pdf (55 pages)

Specifications of DS1923-F5#W

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Part Number:

DS1923-F5#WDS1923-F5#

Manufacturer:

Maxim

Quantity:

Company:

Part Number:

DS1923-F5#WDS1923-F5#

Manufacturer:

MAXIM/美信

Quantity:

20 000

Current page: 42 of 55
Download datasheet (638Kb)

Hygrochron Temperature/Humidity Logger

iButton with 8KB Data-Log Memory

For a write-one time slot, the voltage on the data line

must have crossed the V

low time t

the voltage on the data line must stay below the V

threshold until the write-zero low time t

The voltage on the data line should not exceed V

during the entire t

threshold has been crossed, the DS1923 needs a recov-

ery time t

A read-data time slot begins like a write-one time slot.

The voltage on the data line must remain below V

until the read low time t

window, when responding with a 0, the DS1923 starts

pulling the data line low; its internal timing generator

determines when this pulldown ends and the voltage

starts rising again. When responding with a 1, the

DS1923 does not hold the data line low at all, and the

voltage starts rising as soon as t

The sum of t

nal timing generator of the DS1923 on the other side

define the master sampling window (t

the data line. For most reliable communication, t

should be as short as permissible and the master

should read close to but no later than t

reading from the data line, the master must wait until

time t

slot.

In a 1-Wire environment, line termination is possible

only during transients controlled by the bus master (1-

Wire driver). 1-Wire networks, therefore, are susceptible

to noise of various origins. Depending on the physical

size and topology of the network, reflections from end

points and branch points can add up or cancel each

other to some extent. Such reflections are visible as

glitches or ringing on the 1-Wire communication line.

Noise coupled onto the 1-Wire line from external

MSRMAX

SLOT

______________________________________________________________________________________

REC

is expired. This guarantees sufficient recovery

REC

) in which the master must perform a read from

W1LMAX

for the DS1923 to get ready for the next time

Improved Network Behavior

before it is ready for the next time slot.

(Switchpoint Hysteresis)

is expired. For a write-zero time slot,

W0L

(rise time) on one side and the inter-

or t

threshold before the write-one

W1L

is expired. During the t

window. After the V

is over.

W0LMIN

Slave-to-Master

Master-to-Slave

MSRMAX

MSRMIN

is expired.

. After

ILMAX

sources can also result in signal glitching. A glitch dur-

ing the rising edge of a time slot can cause a slave

device to lose synchronization with the master and, as

a consequence, result in a Search ROM command

coming to a dead end or cause a device-specific func-

tion command to abort. For better performance in net-

work applications, the DS1923 uses a new 1-Wire

front-end, which makes it less sensitive to noise and

also reduces the magnitude of noise injected by the

slave device itself.

The DS1923’s 1-Wire front-end differs from traditional

slave devices in four characteristics:

1) The falling edge of the presence pulse has a con-

2) There is additional lowpass filtering in the circuit that

3) There is a hysteresis at the low-to-high switching

4) There is a time window specified by the rising edge

Devices that have the parameters t

specified in their electrical characteristics use the

improved 1-Wire front-end.

trolled slew rate. This provides a better match to the

line impedance than a digitally switched transistor,

converting the high-frequency ringing known from

traditional devices into a smoother, low-bandwidth

transition. The slew-rate control is specified by the

parameter t

dard and overdrive speed.

detects the falling edge at the beginning of a time

slot. This reduces the sensitivity to high-frequency

noise. This additional filtering does not apply at over-

drive speed.

threshold V

does not go below V

(Figure 14, Case A). The hysteresis is effective at

any 1-Wire speed.

hold-off time t

even if they extend below V

(Figure 14, Case B, t

droops or glitches that appear late after crossing the

cannot be filtered out and are taken as the begin-

ning of a new time slot (Figure 14, Case C, t

REH

threshold and extend beyond the t

FPD

REH

. If a negative glitch crosses V

, which has different values for stan-

during which glitches are ignored,

- V

< t

, it is not recognized

REH

FPD

). Deep voltage

- V

, V

REH

, and t

threshold

window

REH

but

DS1923-F5#W Maxim Integrated Products, DS1923-F5#W Datasheet - Page 42

DS1923-F5#W

Specifications of DS1923-F5#W

Available stocks

Related parts for DS1923-F5#W