MAX515CSA+T Maxim Integrated Products, MAX515CSA+T Datasheet - Page 9

MAX515CSA+T

Manufacturer Part Number

MAX515CSA+T

Description

IC DAC 10BIT VOLT OUT 8-SOIC

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX515CSA.pdf (16 pages)

Specifications of MAX515CSA+T

Settling Time

25µs

Number Of Bits

Data Interface

Serial

Number Of Converters

Voltage Supply Source

Single Supply

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power Dissipation (max)

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The on-chip reference is laser trimmed to generate 2.048V

at REFOUT. The output stage can source and sink current

so REFOUT can settle to the correct voltage quickly in

response to code-dependent loading changes. Typically,

source current is 5mA and sink current is 100µA.

REFOUT connects the internal reference to the R-2R DAC

ladder at REFIN. The R-2R ladder draws 50µA maximum

load current. If any other connection is made to REFOUT,

ensure that the total load current is less than 100µA to

avoid gain errors.

For applications requiring very low-noise performance, con-

nect a 33µF capacitor from REFOUT to AGND. If noise is

not a concern, a lower value (3.3µF min) capacitor may be

used. To reduce noise further, insert a buffered RC filter

between REFOUT and REFIN (Figure 2). The reference

bypass capacitor C

bility. In applications not requiring the reference, connect

REFOUT to V

for C

An external reference in the range (V

may be used with the MAX504 in dual-supply operation.

With the MAX515 or the MAX504 in single-supply use, the

reference must be positive and may not exceed V

The reference voltage determines the DAC’s full-scale out-

put. The DAC input resistance is code dependent and is

minimum (40kΩ) at code 0101... and virtually infinite at

Figure 2. Reference Noise vs. Frequency

SPI and QSPI are trademarks of Motorola, Inc. Microwire is a trademark of National Semiconductor Corp.

REFOUT

300

250

200

150

100

) or use the MAX515 (no internal reference).

0.1

REFOUT

SINGLE POLE ROLLOFF

REFOUT

Internal Reference (MAX504 only)

(to save power and to eliminate the need

REFOUT

_______________________________________________________________________________________

TEK 7A22

FREQUENCY (kHz)

REFOUT

is still required for reference sta-

= 3.3 F

REFOUT

External Reference

100

TOTAL

REFERENCE

NOISE

= 47 F

+ 2V) to (V

5V, Low-Power, Voltage-Output,

1000

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

- 2V)

- 2V.

code 0000.... REFIN’s input capacitance is also code

dependent and has a 50pF maximum value at several

codes.

If an upgrade to the internal reference is required, the 2.5V

MAX873A is suitable: ±15mV initial accuracy, TCV

7ppm/°C (max).

The MAX504/MAX515 logic inputs are designed to be

compatible with TTL or CMOS logic levels. However, to

achieve the lowest power dissipation, drive the digital

inputs with rail-to-rail CMOS logic. With TTL logic levels,

the power requirement increases by a factor of approxi-

mately 2.

Figure 1 shows the MAX504/MAX515 timing. The maxi-

mum serial clock rate is given by 1/(t

mately 14MHz. The digital update rate is limited by the

chip-select period, which is 16 x (t

This equals a 1.14µs, or 877kHz, update rate. However,

the DAC settling time to 10 bits is 25µs, which may limit

the update rate to 40kHz for full-scale step transitions.

Refer to Figures 3a and 3b for typical operating con-

nections.

The MAX504/MAX515 use a three-wire serial interface that

is compatible with SPI™, QSPI™ (CPOL = CPHA = 0), and

Microwire™ standards as shown in Figures 4 and 5. The

DAC is programmed by writing two 8-bit words (see Figure

1 and the Functional Diagram ). 16 bits of serial data are

clocked into the DAC in the following order: 4 fill (dummy)

bits, 10 data bits, and 2 sub-LSB 0s. The 4 dummy bits are

not normally needed, and are required only when DACs

are daisy chained. The 2 sub-LSB 0s, however, are always

needed, and allow hardware and software compatibility

with the 12-bit MAX531/MAX538/MAX539. Transitions at

CS should occur while SCLK is low. Data is clocked in on

SCLK’s rising edge while CS is low. The serial input data is

held in a 16-bit serial shift register. On CS’s rising edge, the

10 data-bits are transferred to the DAC register and update

the DAC. With CS high, data cannot be clocked into the

MAX504/MAX514.

The MAX504/MAX515 inputs data in 16-bit blocks. The SPI

and Microwire interfaces output data in 8-bit blocks, there-

by requiring two write cycles to input data to the DAC. The

QSPI interface allows variable data input from 8 to 16 bits,

and can be loaded into the DAC in one write cycle.

____________Applications Information

Serial 10-Bit DACs

Serial Clock and Update Rate

Serial Interface

Logic Interface

+ t

), approxi-

) + t

OUT

CSW

MAX515CSA+T Maxim Integrated Products, MAX515CSA+T Datasheet - Page 9

MAX515CSA+T

Specifications of MAX515CSA+T

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