DS1921H-F5# Maxim Integrated Products, DS1921H-F5# Datasheet - Page 2

DS1921H-F5#

Manufacturer Part Number

DS1921H-F5#

Description

IBUTTON THERMOCHRON F5

Manufacturer

Maxim Integrated Products

Series

iButton®r

Datasheet

1.DS1921H-F5.pdf (45 pages)

Specifications of DS1921H-F5#

Rohs Information

IButton RoHS Compliance Plan

Memory Size

512B

Memory Type

NVSRAM (Non-Volatile SRAM)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DS1921H/Z

iButton DESCRIPTION

The DS1921H/Z Thermochron iButtons are rugged, self-sufficient systems that measure temperature and

record the result in a protected memory section. The recording is done at a user-defined rate, both as a

direct storage of temperature values as well as in the form of a histogram. Up to 2048 temperature values

taken at equidistant intervals ranging from 1 to 255 minutes can be stored. The histogram provides 64

data bins with a resolution of 0.5°C. If the temperature leaves a user-programmable range, the

DS1921H/Z will also record when this happened, for how long the temperature stayed outside the

permitted range, and if the temperature was too high or too low. Additional 512 bytes of read/write NV

memory allow storing information pertaining to the object to which the DS1921H/Z is associated. Data is

transferred serially via the 1-Wire protocol, which requires only a single data lead and a ground return.

Every DS1921H/Z is factory-lasered with a guaranteed unique electrically readable 64-bit registration

number that allows for absolute traceability. The durable stainless steel package is highly resistant to

environmental hazards such as dirt, moisture, and shock. Accessories permit the DS1921H/Z to be

mounted on almost any object, including containers, pallets, and bags.

APPLICATION

The DS1921Z is an ideal device to monitor the temperature of any object it is attached to or shipped with,

such as fresh produce, medical drugs and supplies. It is also ideal for use in refrigerators. The DS1921H

is intended for monitoring the body temperature of humans and animals and for monitoring temperature

critical processes such as curing, powder coating, and painting. Alternatively, the DS1921H can be used

for monitoring the temperature of clean rooms, and computer and equipment rooms. It can also aid in

calculating the proportional share of heating cost of each party in buildings with central heating. The

DS1921H has a fixed range of +15°C to +46°C. The DS1921Z has a fixed range of -5°C to +26°C. The

high resolution makes the DS1921H and DS1921Z suitable for scientific research and development. The

read/write NV memory can store information such as shipping manifests, dates of manufacture, or other

relevant data written as ASCII or encrypted files. Note that the initial sealing level of DS1921H/Z

achieves the equivalent of IP56. Aging and use conditions can degrade the integrity of the seal over time,

so for applications with significant exposure to liquids, sprays, or other similar environments, it is

recommended to place the Thermochron in the DS9107 iButton capsule. The DS9107 provides a

watertight enclosure that has been rated to IP68 (refer to Application Note 4126).

OVERVIEW

The block diagram in Figure 1 shows the relationships between the major control and memory sections of

the DS1921H/Z. The device has seven main data components: 1) 64-bit lasered ROM; 2) 256-bit

scratchpad; 3) 4096-bit general-purpose SRAM; 4) 256-bit register page of timekeeping, control, and

counter registers; 5) 96 bytes of alarm time stamp and duration logging memory; 6) 128 bytes of

histogram memory; and 7) 2048 bytes of data-logging memory. Except for the ROM and the scratchpad,

all other memory is arranged in a single linear address space. All memory reserved for logging purposes,

counter registers and several other registers are read-only for the user. The timekeeping and control

registers are write-protected while the device is programmed for a mission.

The hierarchical structure of the 1-Wire protocol is shown in Figure 2. The bus master must first provide

one of the seven ROM function commands: 1) Read ROM; 2) Match ROM; 3) Search ROM; 4)

Conditional Search ROM; 5) Skip ROM; 6) Overdrive-Skip ROM; or 7) Overdrive-Match ROM. Upon

completion of an Overdrive ROM command byte executed at standard speed, the device will enter

Overdrive mode, where all subsequent communication occurs at a higher speed. The protocol required for

these ROM function commands is described in Figure 13. After a ROM function command is

successfully executed, the memory functions become accessible and the master may provide any one of

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DS1921H-F5# Maxim Integrated Products, DS1921H-F5# Datasheet - Page 2

DS1921H-F5#

Specifications of DS1921H-F5#

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