AK5388EQ AKM [Asahi Kasei Microsystems], AK5388EQ Datasheet - Page 25

AK5388EQ

Manufacturer Part Number

AK5388EQ

Description

120dB 24-bit 192kHz 4-Channel ADC

Manufacturer

AKM [Asahi Kasei Microsystems]

Datasheet

1.AK5388EQ.pdf (31 pages)

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1. Grounding and Power Supply Decoupling

The AK5388 requires careful attention to power supply and grounding arrangements. AVDD1/2 and DVDD1/2 are

usually supplied from the system’s analog supply. Alternatively if AVDD1/2 and DVDD1/2 are supplied separately, the

power up sequence is not critical. VSS1-6 of the AK5388 must be connected to the analog ground plane. System

analog ground and digital ground should be connected together near to where the supplies are brought onto the printed

circuit board. Decoupling capacitors should be as near to the AK5388 as possible, with the small value ceramic capacitor

being the nearest.

2. Voltage Reference Inputs

The reference voltage for A/D converter is supplied from VREFP1/2 pins at VREFL1/2 reference. VREFL1/2 pins are

connected to analog ground and an electrolytic capacitor over 10μF parallel with a 0.1μF ceramic capacitor between the

VREFP1/2 pins and the VREFL1/2 pins eliminate the effects of high frequency noise. It is important that a ceramic

capacitor should be as near to the pins as possible. All digital signals, especially clocks, should be kept away from the

VREFP1/2 pins in order to avoid unwanted coupling into the AK5388.

VCOM1/2 is a signal ground for this device. An electrolytic capacitor (2.2µF typical) attached to the VCOM1/2 pins

eliminates the effects of high frequency noise. It is important that a ceramic capacitor should be as near to the pins as

possible. No load current may be drawn from the VCOM1/2 pins. All signals, especially clocks, should be kept away

from the VCOM1/2 pins in order to avoid unwanted coupling into the AK5388.

3. Analog Inputs

The Analog input signal is differentially supplied into the modulator via the LIN+ (RIN+) and the LIN− (RIN−) pins. The

input voltage is the difference between the LIN+ (RIN+) and LIN− (RIN−) pins. The full scale signal on each pin is

nominally ±2.8Vpp(typ). The AK5388 can accept input voltages from VSS1-6 to AVDD1/2. The ADC output data

format is two’s complement. The internal HPF removes DC offset.

The AK5388 samples the analog inputs at 128fs (6.144MHz@fs=48kHz, Normal Speed Mode). The digital filter rejects

noise above the stop band except for multiples of 128fs. The AK5388 includes an anti-aliasing filter (RC filter) to

attenuate a noise around 128fs.

The AK5388 requires a +5V analog supply voltage. Any voltage which exceeds the upper limit of AVDD1/2+0.3V and

lower limit of VSS1-6 − 0.3V and any current beyond 10mA for the analog input pins (LIN+/−, RIN+/−) should be

avoided. Excessive currents to the input pins may damage the device. Hence input pins must be protected from signals at

or beyond these limits. Use caution especially when using ±15V for other analog circuits in the system.

MS1096-E-01

Note: VSS1-6 must be connected to the same analog ground plane.

Digital Ground

Controller

System

Figure 22. Ground Layout

- 25 -

Analog Ground

LIN1+

LIN1-

VSS1

AVDD1

TEST1

VSS2

CKS0

CKS1

CKS2

PDN

M/SN

DVDD2

AVDD2

TEST2

MONO

RIN2-

HPFE

VSS6

VSS5

VSS4

RIN2+

DIF

[AK5388]

2009/08

AK5388EQ AKM [Asahi Kasei Microsystems], AK5388EQ Datasheet - Page 25

AK5388EQ

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