TMP05BKSZ-REEL7 datasheet, PDF

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TMP05BKSZ-REEL7: DescriptionDIGITAL TEMP SENSOR-SERIAL, 12BIT(s), 1Cel, RECTANGULAR, SURFACE MOUNT, LEAD FREE, MO-203AA, SC-70, 5 PIN; CategoryThe sensor; File Size2MB，29 Pages; ManufacturerRochester Electronics; Websitehttps://www.rocelec.com/; Environmental Compliance

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TMP05BKSZ-REEL7 Overview

DIGITAL TEMP SENSOR-SERIAL, 12BIT(s), 1Cel, RECTANGULAR, SURFACE MOUNT, LEAD FREE, MO-203AA, SC-70, 5 PIN

TMP05BKSZ-REEL7 Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Rochester Electronics
Reach Compliance Code	unknow
Maximum accuracy (Celsius)	1 Cel
body width	1.25 mm
body height	0.9 mm
Body length or diameter	2 mm
shell	PLASTIC
JESD-609 code	e3
Installation features	SURFACE MOUNT
Number of digits	12
Maximum working current	0.65 mA
Maximum operating temperature	150 °C
Minimum operating temperature	-40 °C
Output interface type	1-WIRE INTERFACE
Package Shape/Form	RECTANGULAR
Sensor/temperature sensor type	TEMPERATURE SENSOR,SWITCH/DIGITAL OUTPUT,SERIAL
Maximum supply voltage	5.5 V
Minimum supply voltage	3 V
surface mount	YES
Terminal surface	MATTE TIN
Termination type	SOLDER

TMP05BKSZ-REEL7 Preview

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±0.5°C Accurate PWM

Temperature Sensor in 5-Lead SC-70

TMP05/TMP06

FEATURES

Modulated serial digital output, proportional to

temperature

±0.5°C typical accuracy at 25°C

±1.0°C accuracy from 0°C to 70°C

Two grades available

Operation from −40°C to +150°C

Operation from 3 V to 5.5 V

Power consumption 70 μW maximum at 3.3 V

CMOS-/TTL-compatible output on TMP05

Flexible open-drain output on TMP06

Small, low cost, 5-lead SC-70 and SOT-23 packages

FUNCTIONAL BLOCK DIAGRAM

TMP05/TMP06

TEMPERATURE

SENSOR

REFERENCE

Σ-Δ

CORE

AVERAGING

BLOCK/

COUNTER

OUT

OUTPUT

CONTROL

CONV/IN

CLK AND

TIMING

GENERATION

FUNC

APPLICATIONS

Isolated sensors

Environmental control systems

Computer thermal monitoring

Thermal protection

Industrial process control

Power-system monitors

GND

Figure 1.

GENERAL DESCRIPTION

The TMP05/TMP06 are monolithic temperature sensors that

generate a modulated serial digital output (PWM), which varies

in direct proportion to the temperature of the devices. The high

period (T

) of the PWM remains static over all temperatures,

while the low period (T

) varies. The B Grade version offers a

high temperature accuracy of ±1°C from 0°C to 70°C with

excellent transducer linearity. The digital output of the TMP05/

TMP06 is CMOS-/TTL-compatible and is easily interfaced to

the serial inputs of most popular microprocessors. The flexible

open-drain output of the TMP06 is capable of sinking 5 mA.

The TMP05/TMP06 are specified for operation at supply voltages

from 3 V to 5.5 V. Operating at 3.3 V, the supply current is

typically 370 μA. The TMP05/TMP06 are rated for operation

over the –40°C to +150°C temperature range. It is not recom-

mended to operate these devices at temperatures above 125°C

for more than a total of 5% (5,000 hours) of the lifetime of the

devices. They are packaged in low cost, low area SC-70 and

SOT-23 packages.

The TMP05/TMP06 have three modes of operation: continu-

ously converting mode, daisy-chain mode, and one shot mode.

A three-state FUNC input determines the mode in which the

TMP05/TMP06 operate.

The CONV/IN input pin is used to determine the rate at which

the TMP05/TMP06 measure temperature in continuously

converting mode and one shot mode. In daisy-chain mode, the

CONV/IN pin operates as the input to the daisy chain.

PRODUCT HIGHLIGHTS

The TMP05/TMP06 have an on-chip temperature sensor

that allows an accurate measurement of the ambient

temperature. The measurable temperature range is

–40°C to +150°C.

Supply voltage is 3 V to 5.5 V.

Space-saving 5-lead SOT-23 and SC-70 packages.

Temperature accuracy is typically ±0.5°C. Each part needs

a decoupling capacitor to achieve this accuracy.

Temperature resolution of 0.025°C.

The TMP05/TMP06 feature a one shot mode that reduces

the average power consumption to 102 μW at 1 SPS.

Rev. B

Information furnished by Analog Devices is believed to be accurate and reliable. However, no

responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other

rights of third parties that may result from its use. Specifications subject to change without notice.

No license is granted by implication or otherwise under any patent or patent rights of Analog

Devices.Trademarks and registered trademarks are the property of their respective owners.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781.329.4700

www.analog.com

Fax: 781.461.3113

03340-001

TMP05/TMP06

TABLE OF CONTENTS

Features .............................................................................................. 1

Applications....................................................................................... 1

Functional Block Diagram .............................................................. 1

General Description ......................................................................... 1

Product Highlights ........................................................................... 1

Revision History ............................................................................... 2

Specifications..................................................................................... 3

TMP05A/TMP06A Specifications ............................................. 3

TMP05B/TMP06B Specifications .............................................. 5

Timing Characteristics ................................................................ 7

Absolute Maximum Ratings............................................................ 8

ESD Caution.................................................................................. 8

Pin Configuration and Function Descriptions............................. 9

Typical Performance Characteristics ........................................... 10

Theory of Operation ...................................................................... 13

Circuit Information.................................................................... 13

Converter Details ....................................................................... 13

Functional Description.............................................................. 13

Operating Modes........................................................................ 13

TMP05 Output ........................................................................... 16

TMP06 Output ........................................................................... 16

Application Hints ........................................................................... 17

Thermal Response Time ........................................................... 17

Self-Heating Effects.................................................................... 17

Supply Decoupling ..................................................................... 17

Layout Considerations............................................................... 18

Temperature Monitoring........................................................... 18

Daisy-Chain Application........................................................... 18

Continuously Converting Application .................................... 24

Outline Dimensions ....................................................................... 26

Ordering Guide .......................................................................... 26

REVISION HISTORY

4/06—Rev. A to Rev. B

Changes to Table 1............................................................................ 3

Changes to Table 2............................................................................ 5

Changes to Table 8.......................................................................... 14

Changes to Table 9.......................................................................... 15

10/05—Rev. 0 to Rev. A

Changes to Specifications Table...................................................... 3

Changes to Absolute Maximum Ratings ....................................... 8

Changes to Figure 4.......................................................................... 8

Changes to Figure 7........................................................................ 10

Changes to Figure 15...................................................................... 11

Deleted Figure 18............................................................................ 12

Changes to One Shot Mode Section ............................................ 14

Changes to Figure 20...................................................................... 14

Changes to Daisy-Chain Mode Section ...................................... 15

Changes to Figure 23...................................................................... 15

Changes to Equation 5 and Equation 7 ....................................... 17

Added Layout Considerations Section ........................................ 18

Updated Outline Dimensions....................................................... 26

Changes to Ordering Guide .......................................................... 26

8/04—Revision 0: Initial Version

Rev. B | Page 2 of 28

TMP05/TMP06

SPECIFICATIONS

TMP05A/TMP06A SPECIFICATIONS

All A grade specifications apply for −40°C to +150°C, V

decoupling capacitor is a 0.1 μF multilayer ceramic, T

= T

MIN

to T

MAX

= 3.0 V to 5.5 V, unless otherwise noted.

Table 1.

Parameter

TEMPERATURE SENSOR AND ADC

Nominal Conversion Rate (One Shot Mode)

Accuracy @ V

= 3.0 V to 5.5 V

Min

Typ

Max

Unit

Test Conditions/Comments

See Table 7

= 0°C to 70°C, V

= 3.0 V to 5.5 V

= –40°C to +100°C, V

= 3.0 V to 5.5 V

= –40°C to +125°C, V

= 3.0 V to 5.5 V

= –40°C to +150°C, V

= 3.0 V to 5.5 V

Step size for every 5 μs on T

= 25°C, nominal conversion rate

See Table 7

±1.5

0.1

°C

°C/5 μs

= –40°C to +150°C

Step size for every 5 μs on T

= 25°C, QI conversion rate

= 25°C, QP conversion rate

See Table 7

±1.5

0.1

0.081

0.0023

5.5

°C

°C/5 μs

°C

= –40°C to +150°C

Step size for every 5 μs on T

= 25°C, DH/QL conversion rate

Drift over 10 years, if part is operated at 55°C

Temperature cycle = 25°C to 100°C to 25°C

±2

±3

±4

±5

0.025

Temperature Resolution

Pulse Width

Quarter Period Conversion Rate

(All Operating Modes)

Accuracy

@ V

= 3.3 V (3.0 V to 3.6 V)

@ V

= 5 V (4.5 V to 5.5 V)

Temperature Resolution

Pulse Width

Double High/Quarter Low Conversion Rate

(All Operating Modes)

Accuracy

@ V

= 3.3 V (3.0 V to 3.6 V)

@ V

= 5 V (4.5 V to 5.5 V)

Temperature Resolution

Pulse Width

Long-Term Drift

Temperature Hysteresis

SUPPLIES

Supply Voltage

Supply Current

Normal Mode

@ 3.3 V

@ 5.0 V

Quiescent

@ 3.3 V

@ 5.0 V

One Shot Mode @ 1 SPS

°C

°C/5 μs

370

425

5.5

30.9

37.38

600

650

μA

μW

Nominal conversion rate

Device not converting, output is high

Average current @ V

= 3.3 V,

nominal conversion rate @ 25°C

Average current @ V

= 5.0 V,

nominal conversion rate @ 25°C

= 3.3 V, continuously converting at

nominal conversion rates @ 25°C

Average power dissipated for V

= 3.3 V,

one shot mode @ 25°C

Average power dissipated for V

= 5.0 V,

one shot mode @ 25°C

Power Dissipation

1 SPS

803.33

101.9

186.9

Rev. B | Page 3 of 28

TMP05/TMP06

Parameter

TMP05 OUTPUT (PUSH-PULL)

Output High Voltage (V

)

Output Low Voltage (V

)

Output High Current (I

OUT

)

Pin Capacitance

Rise Time (t

)

Fall Time (t

)

Resistance (Low Output)

TMP06 OUTPUT (OPEN DRAIN)

Output Low Voltage (V

)

Output Low Voltage (V

)

Pin Capacitance

High Output Leakage Current (I

)

Device Turn-On Time

Fall Time (t

)

Resistance (Low Output)

DIGITAL INPUTS

Input Current

Input Low Voltage (V

)

Input High Voltage (V

)

Pin Capacitance

Min

− 0.3

Typ

Max

Unit

μA

Test Conditions/Comments

= 800 μA

Typ V

= 3.17 V with V

= 3.3 V

0.4

1.2

0.1

Supply and temperature dependent

= 1.6 mA

= 5.0 mA

PWM

OUT

= 5.5 V

Supply and temperature dependent

= 0 V to V

±1

0.3 × V

0.7 × V

It is not recommended to operate the device at temperatures above 125°C for more than a total of 5% (5,000 hours) of the lifetime of the device. Any exposure beyond

this limit affects device reliability.

Normal mode current relates to current during T

. TMP05/TMP06 are not converting during T

, so quiescent current relates to current during T

Guaranteed by design and characterization, not production tested.

It is advisable to restrict the current being pulled from the TMP05 output because any excess currents going through the die cause self-heating. As a consequence,

false temperature readings can occur.

Test load circuit is 100 pF to GND.

Test load circuit is 100 pF to GND, 10 kΩ to 5.5 V.

Rev. B | Page 4 of 28

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