MAX509BCPP+ Maxim Integrated Products, MAX509BCPP+ Datasheet - Page 14

MAX509BCPP+

Manufacturer Part Number

MAX509BCPP+

Description

IC DAC QUAD SRL 8BIT R-R 20-DIP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX510BCWE.pdf (22 pages)

Specifications of MAX509BCPP+

Settling Time

6µs

Number Of Bits

Data Interface

Serial

Number Of Converters

Voltage Supply Source

Dual ±

Power Dissipation (max)

889mW

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Package / Case

20-DIP (0.300", 7.62mm)

Number Of Dac Outputs

Resolution

8 bit

Interface Type

Serial (SPI)

Supply Voltage (max)

5.5 V

Supply Voltage (min)

- 5.5 V

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Maximum Power Dissipation

889 mW

Minimum Operating Temperature

0 C

Supply Current

5 mA

Voltage Reference

4 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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If multiple devices share a common DIN line, Figure 7's

configuration provides simultaneous update by strob-

ing LDAC low. CS1, CS2, CS3... are driven separately,

thus controlling which data are written to devices 1, 2, 3....

The MAX509/MAX510 contain four matched voltage-

output DACs. The DACs are inverted R-2R ladder net-

works that convert 8-bit digital words into equivalent

analog output voltages in proportion to the applied ref-

erence voltages. Each DAC in the MAX509 has a sepa-

rate reference input, while the two reference inputs in

the MAX510 each share a pair of DACs. The two refer-

ence inputs permit different full-scale output voltage

ranges for each pair of DACs. A simplified diagram of

one of the four DACs is shown in Figure 8.

The MAX509/MAX510 can be used for multiplying

applications. The reference accepts both DC and AC

signals. The voltage at each REF input sets the full-

scale output voltage for its respective DAC(s). If the ref-

erence voltage is positive, both the MAX509 and

MAX510 can be operated from a single supply. If dual

supplies are used, the reference input can vary from

impedance at REF is code dependent, with the lowest

value (16kΩ for the MAX509 and 8kΩ for the MAX510)

occurring when the input code is 55 hex or 0101 0101.

The maximum value, practically infinity, occurs when

the input code is 00 hex. Since the REF input imped-

ance is code dependent, the DAC's reference sources

must have a low output impedance (no more than 32Ω

for the MAX509 and 16Ω for the MAX510) to maintain

output linearity. The REF input capacitance is also code

Quad, Serial 8-Bit DACs

with Rail-to-Rail Outputs

Figure 8. DAC Simplified Circuit Diagram

AGND

REF_

SHOWN FOR ALL 1 ON DAC

to V

______________________________________________________________________________________

, but is always referred to AGND. The input

Analog Section

Reference Input

DAC Operation

OUT_

dependent: 15pF typical for the MAX509 and 30pF

typical for the MAX510.

The output voltage for any DAC can be represented by

a digitally programmable voltage source as:

where NB is the numerical value of the DAC's binary

input code.

All MAX509/MAX510 voltage outputs are internally

buffered by precision unity-gain followers that slew at

up to 1V/µs. The outputs can swing from V

With a 0V to +4V (or +4V to 0V) output transition, the

amplifier outputs will settle to 1/2LSB in typically 6µs

when loaded with 10kΩ in parallel with 100pF.

The buffer amplifiers are stable with any combination of

resistive loads ≥ 2kΩ and capacitive loads ≤ 300pF.

The MAX509/MAX510 are fully specified to operate with

mance is guaranteed for both single- and dual-supply

operation. The zero-code output error is less than 14mV

when operating from a single +5V supply.

The DACs work well with reference voltages from V

to V

The preferred power-up sequence is to apply V

then V

time is also acceptable. In either case, the voltage

applied to REF should not exceed V

up or at any other time. If proper power sequencing is

not possible, connect an external Schottky diode

between V

Absolute Maximum Ratings . Do not apply signals to

the digital inputs before the device is fully powered up.

In single-supply operation (AGND = DGND = V

0V), AGND, DGND and V

together in a "star" ground at the chip. This ground

should then return to the highest quality ground avail-

able. Bypass V

close to V

operation, bypass V

Careful PC board layout minimizes crosstalk among

DAC outputs, reference inputs, and digital inputs.

Figures 9 and 10 show suggested circuit board layouts

to minimize crosstalk.

__________Applications Information

= 5V ±10% and V

. The reference voltage is referred to AGND.

, but bringing up both supplies at the same

VOUT = (NB x VREF) / 256

and AGND to ensure compliance with the

and DGND as possible. In dual-supply

Reference Operating Ranges

with a 0.1µF capacitor, located as

to AGND with 0.1µF.

and Ground Management

Power-Supply Bypassing

= 0V to -5.5V. 8-bit perfor-

Output Buffer Amplifiers

should be connected

Power Supply and

during power-

to V

and

MAX509BCPP+ Maxim Integrated Products, MAX509BCPP+ Datasheet - Page 14

MAX509BCPP+

Specifications of MAX509BCPP+

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