TDA8444 Datasheet, PDF(6/16 Page) NXP Semiconductors

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TDA8444 Datasheet, PDF (6/16 Pages) NXP Semiconductors – Octuple 6-bit DACs with I2C-bus

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Philips Semiconductors

Octuple 6-bit DACs with I2C-bus

Product speciï¬cation

TDA8444; TDA8444T;

TDA8444AT

The circuit will not react to other combinations of the

4 instruction bits I3 to I0 than 0 or F, but will still generate

an acknowledge. The difference between

instruction 0 and F is only important when more than one

data byte is sent within one transmission. Instruction 0

causes the data bytes to be written into the DAC-latches

with consecutive subaddresses starting with the

subaddress given in the instruction byte (auto-increment of

subaddress), while instruction F will cause a consecutive

writing of the data bytes into the same DAC-latch whose

subaddress was given in the instruction byte. In case of

only one data byte the DAC-latch with the subaddress

equal to the subaddress in the instruction byte will receive

the data.

Valid subaddresses are: 0H to 7H.

The subaddresses correspond to DAC0 to DAC7.

The Auto-Increment (AI) function of instruction 0,

however, works on all possible subaddresses 0 to F in

such a way that next to subaddress F, subaddress 0 will

follow, and so on.

The data will be latched into the DAC-latch on the

positive-going edge of the acknowledge related clock

pulse.

The specification of the SCL and SDA I/O meets the

I2C-bus specification. For protection against positive

voltage pulses on pins 3 and 4, zener diodes are

connected between these pins and VEE. This means that

normal bus line voltage should not exceed 5.5 V.

The address inputs A0, A1 and A2 can be easily

programmed by either a connection to VEE (An = 0) or VCC

(An = 1). If the inputs are left floating the result will be

An = 1.

VMAX

The VMAX input gives a means of compressing the DAC

output voltage swing. The maximum DAC output voltage

will be equal to VMAX + VDAC(min), while the 6-bit resolution

is maintained. This enables a higher voltage resolution for

smaller output swings.

DACs

The DACs consist of a 6-bit data-latch, current switches

and an opamp. The current sources connected to the

switches have values with weights 20 to 25. The sum of the

switched on currents is converted by the opamp into a

voltage between approximately 0.5 and 10.5 V if

VMAX = VCC = 12 V. The DAC outputs are short-circuit

protected against VCC and VEE. Capacitive load on the

DAC outputs should not exceed 2 nF in order to prevent

possible oscillations at certain levels. The temperature

coefficient for each of the outputs remains in all possible

conditions well below 0.1 LSB per Kelvin.

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

SYMBOL

PARAMETER

VCC

ICC

P(max)

Vi(n)

Tstg

Tamb

supply voltage

supply current

maximum power dissipation

input voltage

pins SDA and SCL

pins VMAX, A0 to A2 and DAC0 to DAC7

current in all pins except VCC and VEE

storage temperature

operating ambient temperature

MIN.

â0.5

â10

â0.5

â65

â20

MAX.

+18

+40

500

+5.9

VCC + 0.5

Â±10

+150

+70

UNIT

Â°C

QUALITY SPECIFICATION

In accordance with âSNW-FQ-611-Eâ.

1999 Apr 29

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