MAX500BCPE+ Maxim Integrated Products, MAX500BCPE+ Datasheet - Page 6

MAX500BCPE+

Manufacturer Part Number

MAX500BCPE+

Description

IC DAC CMOS QUAD SRL 8BIT 16-DIP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX500BCPE.pdf (12 pages)

Specifications of MAX500BCPE+

Settling Time

2.5µs

Number Of Bits

Data Interface

Serial

Number Of Converters

Voltage Supply Source

Dual ±

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Package / Case

16-DIP (0.300", 7.62mm)

Number Of Dac Outputs

Resolution

8 bit

Interface Type

Serial (I2C)

Supply Voltage (max)

16.5 V

Supply Voltage (min)

11.4 V

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Maximum Power Dissipation

842 mW

Minimum Operating Temperature

0 C

Supply Current

10 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power Dissipation (max)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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sink, as well as source up to 5mA. This is especially

important in single-supply applications, where V

connected to AGND, so that the zero error is kept at or

under 1/2LSB (V

Current vs. Output Voltage is shown in the Typical

Operating Characteristics section.

The digital inputs are compatible with both TTL and 5V

CMOS logic; however, the power-supply current (I

is somewhat dependent on the input logic level. Supply

current is specified for TTL input levels (worst case) but

is reduced (by about 150µA) when the logic inputs are

driven near DGND or 4V above DGND.

Do not drive the digital inputs directly from CMOS logic

running from a power supply exceeding 5V. When driv-

CMOS, Quad, Serial-Interface

8-Bit DAC

Figure 2. Positive and Negative Settling Times

Figure 3. Dynamic Response

_______________________________________________________________________________________

REF

POSITIVE STEP

DYNAMIC RESPONSE

1 s/div

= -5V or 0V)

= +10V). A plot of the Output Sink

= -5V or 0V)

2 s/div

and Interface Logic

LDAC

5V/div

OUTPUT

100mV/div

Digital Inputs

LDAC

5V/div

OUTPUT

5V/div

(20mV/div)

OUTPUT

)

(5V/div)

INPUT

ing SCL through an opto-isolator, use a Schmitt trigger

to ensure fast SCL rise and fall times.

The MAX500 allows the user to choose between a

3-wire serial interface and a 2-wire serial interface.

The choice between the 2-wire and the 3-wire inter-

face is set by the LOAD signal. If the LOAD is allowed

to float (it has a weak internal pull-up resistor to V

the 2-wire interface is selected. If the LOAD signal is

kept to a TTL-logic high level, the 3-wire interface

is selected.

The 3-wire interface uses the classic Serial Data (SDA),

Serial Clock (SCL), and LOAD signals that are used

in standard shift registers. The data is clocked in on

the falling edge of SCL until all 10 bits (8 data bits and

2 address bits) are entered into the shift register.

Figure 4. Simplified Output Buffer Circuit

INVERTED

OUTPUT

FROM

DAC

INPUTS

(+)

PMOS

NEGATIVE STEP

1 s/div

= -5V or 0V)

(-)

3-Wire Interface

LDAC

5V/div

OUTPUT

100mV/div

PULL-DOWN

FOLLOWER

EMITTER

PULL-UP

CIRCUIT

ACTIVE

NMOS

NPN

OUT

MAX500BCPE+ Maxim Integrated Products, MAX500BCPE+ Datasheet - Page 6

MAX500BCPE+

Specifications of MAX500BCPE+

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