DSD1700

DSD1700

1999 Burr-Brown Corporation

PDS-1555A

Printed in U.S.A. December, 1999

Direct Stream Digital

™

(DSD

™

)

Audio

DIGITAL-TO-ANALOG CONVERTER

International Airport Industrial Park • Mailing Address: PO Box 11400, Tucson, AZ 85734 • Street Address: 6730 S. Tucson Blvd., Tucson, AZ 85706 • Tel: (520) 746-1111

Twx: 910-952-1111 • Internet: http://www.burr-brown.com/ • Cable: BBRCORP • Telex: 066-6491 • FAX: (520) 889-1510 • Immediate Product Info: (800) 548-6132

DESCRIPTION

The DSD1700 is a unique digital-to-analog converter

designed for DSD audio applications. The DSD1700

consists of a single-channel, 8-tap analog FIR filter

constructed using a double differential circuit architec-

ture, ensuring excellent dynamic performance and

high power- supply noise rejection. The DSD1700

also includes the necessary logic required to interface

directly to a DSD decoder IC.

The overall features and performance of the DSD1700

make it an ideal choice for high-performance Super

Audio CD players and DSD studio applications.

FEATURES

DIRECT TRANSFER OF DSD DATA

STREAM TO ANALOG OUTPUT SIGNAL

DUAL DIFFERENTIAL ANALOG FIR FILTER

DIRECT, CMOS LOGIC INTERFACE TO

DSD

DECODER IC

Data Clock: 2.8224 MHz (64 • 44.1kHz)

System Clock: 11.2896 MHz (256 • 44.1kHz)

EXCELLENT DYNAMIC PERFORMANCE

THD+N: 0.001% (typ)

Dynamic Range: 110dB (typ)

SNR: 110dB (typ)

Frequency Response (–3dB): 100kHz

SINGLE +5V SUPPLY OPERATION

SMALL 28-LEAD SSOP PACKAGE

APPLICATIONS

SUPER AUDIO CD (SACD

™

) PLAYERS

PROFESSIONAL DSD PROCESSORS

PROFESSIONAL DSD CONSOLES

For most current data sheet and other product

information, visit www.burr-brown.com

DSD I/F

PHASE

DATA

RST

DCK

SCK

DGND

AGND

Duty

Generator

Duty

Generator

Shift Register

(HOT)

Analog FIR

(HOT/P)

Analog FIR

(HOT/N)

Analog FIR

(COLD/N)

Analog FIR

(COLD/P)

Shift Register

(COLD)

Timing

Generator

Power

Supply

OUT

DSD1700

All trademarks are property of their respective owners.

DSD1700

The information provided herein is believed to be reliable; however, BURR-BROWN assumes no responsibility for inaccuracies or omissions. BURR-BROWN

assumes no responsibility for the use of this information, and all use of such information shall be entirely at the user’s own risk. Prices and specifications are subject

to change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. BURR-BROWN does not

authorize or warrant any BURR-BROWN product for use in life support devices and/or systems.

SPECIFICATIONS

All specifications T

= +25

C, V

= V

= 5.0V, f

= 44.1kHz, data clock = 64f

, system clock = 256f

, unless otherwise specified. (Although the sampling frequency

of Direct Stream Digital is 2.8224MHz, for convenience, in this specification sheet, it is described that the sampling frequency (f

) is 44.1kHz and the 2.8224MHz

clock is 64f

DSD1700E

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNITS

INPUT CLOCK

Data Clock Frequency (DCK)

64f

2.8224

MHz

System Clock Frequency (SCK)

256f

11.2896

MHz

SCK AC REQUIREMENT

(1)

Input Clock Duty Cycle

DIGITAL INPUT

High Level Input Voltage

0.7V

Low Level Input Voltage

0.3V

High Level Input Current

Low Level Input Current

(2)

(3)

–120

ANALOG OUTPUT

(5)

Full-Scale Voltage

4.1V

Vp-p

Gain Error

% of FSR

Offset Error

0.1

% of FSR

Output Impedance

(4)

Ω

DYNAMIC PERFORMANCE

(5)

THD+N, V

OUT

= 0dB

with 30kHz GIC Filter

0.001

Dynamic Range

with 30kHz GIC Filter

110

Signal-to-Noise Ratio

with 30kHz GIC Filter

110

Frequency Response, –3dB

100

kHz

POWER SUPPLY REQUIREMENTS

Voltage Range

, V

4.5

5.5

VDC

Supply Current

= V

= 5.0V

5.5

8.0

Power Dissipation

= V

= 5.0V

27.5

TEMPERATURE RANGE

Operating

–25

+85

Storage

–55

+125

Thermal Resistance

28-Pin SSOP

100

C/W

NOTES: (1) See description of system clock in the Functional Description section of this data sheet. (2) Pins 26, 27, 28: DATA. DCK. SCK. (3) Pins 3, 4: RST, PHASE

(with internal pull-up). (4) Pins 13, 14, 15, 16: I

OUT

HN, I

OUT

CP, I

OUT

CN, I

OUT

HP. (5) Measure DSD signal modulated f

SIG

= 1kHz with 50% scaling factor through

standard differential to single-ended converter (see Figure 10) using Audio Precision System II in rms mode with 20kHz LPF and 400Hz HPF.

DSD1700

PIN CONFIGURATION

ELECTROSTATIC

DISCHARGE SENSITIVITY

This integrated circuit can be damaged by ESD. Burr-Brown

recommends that all integrated circuits be handled with

appropriate precautions. Failure to observe proper handling

and installation procedures can cause damage.

ESD damage can range from subtle performance degrada-

tion to complete device failure. Precision integrated circuits

may be more susceptible to damage because very small

parametric changes could cause the device not to meet its

published specifications.

Supply Voltage

(2)

.............................................................................. +6.5V

Supply Voltage Differences

(3)

...........................................................

0.1V

Ground Voltage Differences

(4)

..........................................................

0.1V

Digital Input Voltage ................................................... –0.3V to V

+0.3V

Input Current (any pins except supplies) .......................................

10mA

Operating Temperature .................................................... –25

C to +85

Storage Temperature ..................................................... –55

C to +125

Junction Temperature .................................................................... +150

Lead Temperature (soldering, 5s) ................................................. +260

Package Temperature (IR reflow, peak, 10s) ............................... +235

NOTE: (1) Stresses above these ratings may cause permanent damage.

Exposure to absolute maximum conditions for extended periods may degrade

device reliability. (2) V

, V

. (3) Among V

, V

. (4) Among AGND, DGND.

ABSOLUTE MAXIMUM RATINGS

(1)

Top View

SSOP

PACKAGE

SPECIFIED

DRAWING

TEMPERATURE

PACKAGE

ORDERING

TRANSPORT

PRODUCT

PACKAGE

NUMBER

RANGE

MARKING

NUMBER

(1)

MEDIA

DSD1700E

28-Lead SSOP

324

C to +70

DSD1700E

Rails

DSD1700E/2K

Tape and Reel

NOTE: (1) Models with a slash (/) are available only in Tape and Reel in the quantities indicated (e.g., /2K indicates 2000 devices per reel). Ordering 2000 pieces

of “DSD1700E/2K” will get a single 2000-piece Tape and Reel.

PACKAGE/ORDERING INFORMATION

DGND

RST

PHASE

AGND

OUT

SCK

DCK

DATA

AGND

OUT

DSD1700

PIN

NAME

I/O

DESCRIPTION

DGND

—

Digital Ground

—

Digital Power Supply: +5V

RST

Reset Control Input, Active LOW

(1)

PHASE

Select data phase

(LOW = Normal; HIGH = Invert)

AGND

—

Analog Ground

—

Analog Power Supply: +5V

AGND

—

Analog Ground

—

Analog Power Supply: +5V

—

Analog Power Supply: +5V

AGND

—

Analog Ground

—

Analog Power Supply: +5V

AGND

—

Analog Ground

OUT

Analog Output from DAC (Hot Negative)

OUT

Analog Output from DAC (Cold Positive)

OUT

Analog Output from DAC (Cold Negative)

OUT

Analog Output from DAC (Hot Positive)

AGND

—

Analog Ground

AGND

—

Analog Ground

—

Analog Power Supply: +5V

AGND

—

Analog Ground

—

Analog Power Supply: +5V

—

Analog Power Supply: +5V

AGND

—

Analog Ground

—

Analog Power Supply: +5V

AGND

—

Analog Ground

DATA

Direct Stream Digital Data Input

DCK

Data Clock Input

SCK

System Clock Input

NOTE: (1) With internal pull-up resistor

PIN ASSIGNMENTS

DSD1700

GENERAL INFORMATION

The DSD1700 is designed solely for use in DSD and SACD

applications. It is not compatible with standard CD audio

transports, or DVD/MPEG-2 decoders. Burr-Brown manu-

facturers a wide array of products for these applications.

Please refer to our audio brochure and product data sheets,

available from our web site (www.burr-brown.com) and

local sales offices.

FUNCTIONAL DESCRIPTION

The concept of Direct Stream Digital (DSD) conversion is

simple. An analog audio input is digitized by a 1-bit, 64x

oversampled delta-sigma modulator. The 1-bit data stream is

then stored and may be transferred to a SACD disc at a later

time. For playback, the 1-bit, 64x oversampled data is then

presented to the DSD1700 directly by a DSD decoder IC.

The DSD1700 then low-pass filters the oversampled data to

reconstruct the original analog audio waveform. The record-

ing and playback functions are illustrated in Figures 1 and 2

respectively.

To perform the digital-to-analog conversion, the DSD1700

includes both the decoder interface logic and an analog FIR

filter. The following paragraphs provide a summary of these

functions.

FIGURE 1. DSD Recording.

FIGURE 2. DSD

Playback.

DECODER INTERFACE

The decoder interface consists of several CMOS logic in-

puts. The system clock input, SCK (pin 28), operates at

11.2896MHz (256 • 44.1kHz). The data bit clock, DCK

(pin 27), operates at 2.8244 MHz (64 • 44.1kHz) and is the

64x oversampled data clock. The 1-bit, 64x oversampled

data stream is input at DATA (pin 26). DATA and DCK are

synchronized to the SCK falling edge.

The DSD1700 generates HOT and COLD data internally for

use with the double differential analog FIR filter. The

PHASE input (pin 4) is used to determine the polarity of the

HOT and COLD data (normal or inverted). The PHASE

input is synchronized to the rising edge of SCK.

The RST input (pin 3) is used for system reset purposes.

RST should be High for normal operation, and Low for reset

operation. When RST is held Low, the current outputs of the

analog FIR filter are set to the bipolar zero (BPZ) level. The

RST signal is synchronized to the rising edge of SCK.

TIMING

Figures 3 though 6 show the timing diagrams for the

DSD1700 interface signals. Figure 3 shows the system clock

(SCK) timing requirements. Figure 4 shows the general

timing for the data input. Figures 5 and 6 show the detailed

timing for the DSD data and control data inputs.

LOGIC

DSD

Input

(64f

, 1-Bit)

Analog

Output

Low-Pass

Filter

Interface

Logic

FIGURE 3. System Clock Timing.

FIGURE 4. Input Signal Timing.

SCKH

SCKL

1/256 f

High

Low

System Clock

= 0.7V

= 0.3V

∫

Analog

Input

DSD

Output

(64f

, 1-Bit)

Loop Filter

(Noise Shaping

and Integration)

1-Bit

Quantizer

–

DATA

SCK (256f

)

DCK (64f

)

RST

SYMBOL

DESCRIPTION

MIN

TYP

MAX

UNITS

SCKH

System Clock Pulse Width High

SCKL

System Clock Pulse Width Low

DSD1700

DCK

SCK

DATA

DCH

DAH

DAS

DCS

SCWH

SCWL

SCY

PHASE

SCK

RST

SCWL

SCWH

SCY

FIGURE 5. DSD Data Input Timing.

FIGURE 6. Control Data Input Timing.

SYMBOL

DESCRIPTION

MIN

TYP

MAX

UNITS

SCWH

SCK Pulse Width High

SCWL

SCK Pulse Width Low

SCY

SCK Pulse Cycle Time

1/(256f

)

sec

DCS

DCK Setup Time

DCH

DCK Hold Time

DAS

DATA Setup Time

DAH

DATA Hold Time

SYMBOL

DESCRIPTION

MIN

TYP

MAX

UNITS

SCWH

SCK Pulse Width High

SCWL

SCK Pulse Width Low

SCY

SCK Pulse Cycle Time

1/(256f

)

sec

PHASE Setup Time

PHASE Hold Time

RST Setup Time

RST Hold Time

DSD1700

OUT

FIGURE 7. Analog FIR Filter Structure.

FIGURE 8. Analog FIR Filter Frequency Response.

FREQUENCY RESPONSE

(DC – 1.4112MHz)

Frequency (Hz)

Gain (dB)

705,600

1,411,200

–50

–100

FREQUENCY RESPONSE

(DC – 11.2896MHz)

Frequency (Hz)

Gain (dB)

5,644,800

11,289,600

–50

–100

ANALOG FIR FILTER

The low-pass filter function for the DSD1700 is constructed

by using four 8-tap, analog FIR filters with current outputs.

The four filters include one each for HOT and COLD

positive, and one each for HOT and COLD negative. This is

referred to as a double differential architecture. These filters

use resistors to set the filter coefficients, as shown in

Figure 7. Prior to the analog FIR filters, the duty cycle of the

DSD input signal is set to 75% by the DSD1700’s duty

generators.

Plots of the analog FIR filter response is shown in Figure 8.

The stop-band attenuation of the filters dictates that addi-

tional low-pass filtering is required at the output of the

external current-to-voltage converter circuit (see Figure 10).

DSD1700

FIGURE 9. Basic Connection Diagram.

DGND

RST

PHASE

AGND

OUT

SCK

DCK

DATA

AGND

OUT

DSD1700

Direct

Stream

Digital

™

Data

System Clock

System Reset

Phase Control

+5V

NOTE: C

= 0.1

F ceramic and 1-100

F. C

- C

= 0.1

F ceramic each and 1-100

F chemical.

Analog

Ground

FIGURE 10. Recommended I/V Conversion Circuit.

APPLICATIONS INFORMATION

TYPICAL CONNECTIONS

Figure 9 shows the basic connection diagram for the

DSD1700. A significant number of power supply bypass

capacitors are required, and Burr-Brown recommends the

indicated values for optimal performance.

CURRENT-TO-VOLTAGE (I/V)

CONVERTER CIRCUIT

The DSD1700 is a current output device, and requires an

I/V conversion circuit to transform the double-differential

outputs into a usable voltage output. The circuit in Figure 10

is recommended for this purpose. Op amps are OPA134 or

equivalent.

+18V

–18V

OPA134

0.1

100pF

0.1

4.7k

Ω

Analog

Out

220pF

4.7k

Ω

+18V

+5V

–18V

OPA134

4.7k

Ω

+18V

–18V

OPA134

4.7k

Ω

4.7k

Ω

8.2 k

Ω

8.2 k

Ω

100pF

Ω

470pF

220pF

OUT

4.7k

Ω

Analog

Ground