AD1868N-J Analog Devices Inc, AD1868N-J Datasheet - Page 6

AD1868N-J

Manufacturer Part Number

AD1868N-J

Description

IC DAC AUDIO DUAL SNGL 16DIP

Manufacturer

Analog Devices Inc

Datasheet

1.AD1868N.pdf (12 pages)

Specifications of AD1868N-J

Rohs Status

RoHS non-compliant

Number Of Bits

Data Interface

Serial

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

70mW

Operating Temperature

-35°C ~ 85°C

Mounting Type

Through Hole

Package / Case

16-DIP (0.300", 7.62mm)

Settling Time

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AD1868

The AD1868 eliminates the need for “False Ground” circuitry.

generated by the “False Ground.” As shown in Figure 8b, V

and V

channel. This permits a dc-coupled output signal path. This

eliminates ac-coupling capacitors and improves low frequency

performance. It should be noted that these bias outputs have

relatively high output impedance and will not drive output

currents larger than 100 A without degrading the specified

performance.

DISTORTION PERFORMANCE AND TESTING

The THD+N figure of an audio DAC represents the amount of

undesirable signal produced during reconstruction and playback

of an audio waveform. Therefore, the THD+N specification

provides a direct method to classify and choose an audio DAC

for a desired level of performance.

R and V

CLK

L may be used as the reference point in each output

Figure 8b. Circuitry Using Voltage Biases

L generate the required bias voltages previously

DGND

MSB

AD1868

AGND

NRL

NRR

+ 5V

Figure 9. Control Signals

–6–

Figure 1 illustrates the typical THD+N versus frequency perfor-

mance of the AD1868. It is evident that the THD+N perfor-

mance of the AD1868 remains stable at all three levels through

a wide range of frequencies. A load impedance of at least 2 k is

recommended for best THD+N performance.

Analog Devices tests and grades all AD1868s on the basis of

THD+N performance. During the distortion test, a high speed

digital pattern generator transmits digital data to each channel

of the device under test. Eighteen-bit data is latched into the

DAC at 352.8 kHz (8 F

sine wave with 0 dB, –20 dB, and –60 dB amplitudes. A 4096-

point FFT calculates total harmonic distortion + noise,

signal-to-noise ratio, and D-range. No deglitchers or external

adjustments are used.

DIGITAL CIRCUIT CONSIDERATIONS

INPUT DATA

The AD1868 digital input port employs five signals: Data Left

(DL), Data Right (DR), Latch Left (LL), Latch Right (LR) and

Clock (CLK). DL and DR are the serial inputs for the left and

right DACs, respectively. Input data bits are clocked into the in-

put register on the rising edge of CLK. The falling edges of LL

and LR cause the last 18 bits which were clocked into the serial

registers to be shifted into the DACs, thereby updating the re-

spective DAC outputs. For systems using only a single latch sig-

nal, LL and LR may be connected together. For systems using

only one DATA signal, DR and DL may be connected together.

Data is transmitted to the AD1868 in a bit stream composed of

18-bit words with a serial, twos complement, MSB first format.

Left and right channels share the Clock (CLK) signal.

Figure 9 illustrates the general signal requirements for data

transfer for the AD1868.

). The test waveform is a 990.5 Hz

LSB

REV. A

AD1868N-J Analog Devices Inc, AD1868N-J Datasheet - Page 6

AD1868N-J

Specifications of AD1868N-J

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