MAX536AEPE Maxim Integrated, MAX536AEPE Datasheet - Page 16

MAX536AEPE

Manufacturer Part Number

MAX536AEPE

Description

Digital to Analog Converters - DAC

Manufacturer

Maxim Integrated

Datasheet

1.MAX537BEPE.pdf (24 pages)

Specifications of MAX536AEPE

Number Of Converters

Number Of Dac Outputs

Resolution

12 bit

Interface Type

QSPI, SPI, Serial (3-Wire, 4-Wire, Microwire)

Settling Time

3 us

Maximum Operating Temperature

+ 85 C

Mounting Style

Through Hole

Package / Case

PDIP N

Maximum Power Dissipation

842 mW

Minimum Operating Temperature

- 40 C

Output Type

Voltage

Supply Current

8 mA

Supply Voltage - Max

- 5.5 V, + 16.5 V

Supply Voltage - Min

- 4.5 V, + 10.8 V

Voltage Reference

External

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Calibrated, Quad, 12-Bit

Voltage-Output DACs with Serial Interface

When daisy-chaining MAX536s, the delay from CS

low to SCK high (t

where t

equation:

where V

connected.

Table 1. Serial-Interface Programming Commands

CSS

“X” = Don’t Care. LDAC provides true latch control: when LDAC is low, the DAC registers are transparent; when LDAC is high,

the DAC registers are latched.

) and the load capacitance (C) at SDO. For t

______________________________________________________________________________________

is simply t

PULLUP

is the time constant of the external pullup resistor

16-BIT SERIAL WORD

= R

is the voltage to which the pullup resistor is

CSS

+ t

) must be the greater of:

(C)

+ t

. Calculate t

[

12-bit DAC data

X X X X X X X X X X X X

12-bit DAC data

+ t

(

D11…D0

PULLUP

- t

CSW

PULLUP

from the following

- 2.4V

< 20ns,

)

LDAC

]

Additionally, when daisy-chaining devices, the maximum

clock frequency is limited to:

8.7MHz.

Figure 9 shows an alternate method of connecting several

MAX536/MAX537s. In this configuration, the data bus is

common to all devices; data is not shifted through a

daisy-chain. More I/O lines are required in this configu-

ration because a dedicated chip-select input (CS) is

required for each IC.

For example, with t

Load DAC A input register; DAC output unchanged.

Load DAC B input register; DAC output unchanged.

Load DAC C input register; DAC output unchanged.

Load DAC D input register; DAC output unchanged.

Load input register A; all DAC registers updated.

Load input register B; all DAC registers updated.

Load input register C; all DAC registers updated.

Load input register D; all DAC registers updated.

Load all DACs from shift register.

No operation (NOP)

Update all DACs from their respective input registers.

Mode 1 (default condition at power-up), DOUT clocked out on

SCK’s rising edge. All DACs updated from their respective

input registers.

Mode 0, DOUT clocked out on SCK’s falling edge. All DACs

updated from their respective input registers.

Load DAC A input register; DAC A is immediately updated.

Load DAC B input register; DAC B is immediately updated.

Load DAC C input register; DAC C is immediately updated.

Load DAC D input register; DAC D is immediately updated.

= 1kΩ and C = 30pF), the maximum clock frequency is

SCK

(max) = ——————————————

2 (t

FUNCTION

= 23ns (5V ±10% supply with

+ t

- 38ns + t

)

MAX536AEPE Maxim Integrated, MAX536AEPE Datasheet - Page 16

MAX536AEPE

Specifications of MAX536AEPE

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