MAX1099CEAE+ Maxim Integrated Products, MAX1099CEAE+ Datasheet - Page 16

MAX1099CEAE+

Manufacturer Part Number

MAX1099CEAE+

Description

IC ADC 10BIT SERIAL 16-SSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1099CEAE.pdf (20 pages)

Specifications of MAX1099CEAE+

Number Of Bits

Sampling Rate (per Second)

900

Data Interface

MICROWIRE™, QSPI™, Serial, SPI™

Number Of Converters

Power Dissipation (max)

2.2mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SSOP

Full Temp Accuracy

+/- 4 C

Digital Output - Bus Interface

Serial (3-Wire)

Digital Output - Number Of Bits

10 bit

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Output Type

Digital

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 16 of 20
Download datasheet (241Kb)

ence reflects the power requirement of an internal refer-

ence buffer amplifier that can accommodate external

loads. Temperature conversions at 100% duty cycle

increase supply currents to 440µA (400µA) through

additional amplification, buffer, and bias circuitry that is

otherwise inactive.

Place the MAX1098/MAX1099 in a low-current power-

down state between conversions to conserve power.

Select standby, standby plus, or shutdown through bits

PM1 and PM0 of the initialization byte (Table 3).

The MAX1098/MAX1099 assume the shutdown power

mode when V

Standby mode turns off the MAX1098/MAX1099 ADC,

internal clock, and reference buffer amplifier. Special

circuitry for temperature conversions is also deactivat-

ed. Wake-up time is limited by the reference buffer

amplifier and the associated bypass capacitor (see

Internal Reference). When an external reference is

used, wake-up time is 0.1ms.

Standby-plus mode is similar to the standby mode, but

the internal reference output buffer remains active to

shorten the wake-up time to 0.1ms for internal refer-

ence mode. When using an external reference, stand-

by-plus mode is equivalent to standby mode.

Shutdown mode turns off all functions other than start-

up circuitry, thereby reducing typical supply current to

2µA. Data registers are cleared. Use this power mode

when interconversion times are no less than 5ms.

This mode of operation samples and converts the sup-

ply voltage, V

reference voltage must be larger than V

operation to work properly. From the result of a conver-

sion (CODE), CODE = 64 V

The MAX1098/MAX1099 perform temperature measure-

ments with internal or external diode-connected transis-

tors through a three-step process. First, the diode bias

current changes from 31.6µA to 10µA to produce a

temperature-dependent bias voltage difference, which

is amplified by a factor of 20 and converted to digital

format. Second, the bias current changes from 31.6µA

to 100µA, and the bias voltage difference is similarly

amplified by a factor of 20 and converted to digital for-

mat. Third, the intermediate results are subtracted to

10-Bit Serial-Output Temperature Sensors

with 5-Channel ADC

______________________________________________________________________________________

is first applied.

/4, which is internally generated. The

Temperature Measurements

/ V

REF

Standby-Plus Mode

Monitoring V

Shutdown Mode

Standby Mode

/8 for the

achieve a digital output that is proportional to absolute

temperature in degrees Kelvin.

The reference voltage used in conjunction with tempera-

ture measurements is derived from the internal reference

source to ensure that 1LSB corresponds to 1/8 of a

degree. To convert to degrees Celsius, subtract 273.15

from the temperature inferred from the ADC output.

Temperature measurements require a conversion time

of 2.2ms.

The MAX1098/MAX1099 provide a shield output buffer

voltage at SHO that is approximately 0.6V (one diode

drop) above V

measurements with an external diode, use this voltage

to suppress error-producing leakage currents (see

Remote Diode Shielding). Figure 7 shows the SHO out-

put circuit.

Temperature accuracy depends on having a good-

quality, diode-connected, small-signal transistor.

Accuracy has been experimentally verified for 2N3904

devices. CPUs and other ICs having on-board temper-

ature-sensing diodes can also be monitored if the

diode connections are floating.

Figure 7. SHO Output Circuit

Table 3. Power-Mode Selection

See Power Requirements in Electrical Characteristics.

PM1

PM0

Applications Information

Shutdown

Standby plus

Standby

Normal operation

/2. When performing temperature

Remote Diode Selection

Shield Output Buffer

5 µA

MODE

SHO

MAX1099CEAE+ Maxim Integrated Products, MAX1099CEAE+ Datasheet - Page 16

MAX1099CEAE+

Specifications of MAX1099CEAE+

Related parts for MAX1099CEAE+