Manual

Table Of Contents

DS693F1 15

CS3318

5.2.2 Analog Outputs

The analog outputs are capable of driving 2kΩ loads to within 1.35 V of the analog supply rails and are

short-circuit protected to 20 mA.

The minimum output load resistance is 2kΩ; a load smaller than 2kΩ may cause increased distortion.

As the load resistance decreases, the potential for increased internal heating and the possibility of dam-

age to the device is introduced. Additionally, the load capacitance should be less than 100 pF. Increased

load capacitance may cause increased distortion, and the potential for instability in the output amplifiers.

If a low-impedance or high-capacitance load must be driven, an external amplifier should be used to iso-

late the outputs of the CS3318.

5.2.3 Recommended Layout, Grounding, and Power Supply Decoupling

As with any high-performance device that contains both analog and digital circuitry, careful attention must

be provided to power supply and grounding arrangements to optimize performance. Figure 3 on page 12

shows the recommended power arrangements, with VA+, VA-, and VD connected to clean supplies.

Power supply decoupling capacitors should be placed as near to the CS3318 as possible, with the low

value ceramic capacitor being the nearest. Care should be taken to ensure that there is minimal resis-

tance in the analog ground leads to the device to prevent any changes in the defined gain/attenuation set-

tings. The use of a unified ground plane is recommended for optimal performance and minimal radiated

noise. The CS3318 evaluation board demonstrates the optimum layout and power supply arrangements.

Should the printed circuit board have separate analog and digital regions with independent ground planes,

the CS3318 should reside in the analog region of the board.

Extensive use of ground plane fill on the circuit board will yield large reductions in radiated noise effects.

5.3 Power-Up and Power-Down

The CS3318 will remain in a completely powered-down state with the control port inaccessible until the RE-

SET pin is brought high. Once RESET is high, the control port will be accessible, but the internal amplifiers

will remain powered-down until the PDN_ALL bit is cleared.

To bring a channel out of power-down, both the PDN_ALL and the channel’s PDNx bit must be cleared. By

default, all channels’ PDNx bits are cleared, and the PDN_ALL bit is set. To minimize audible artifacts during

power-up process, the CS3318 automatically holds each channel’s volume at mute until its amplifier has

completed its power-up sequence. Once the power-up process is complete, each channel’s volume will au-

tomatically be set to the correct level according to the CS3318’s control port settings.

To place a channel in power-down, either the channel’s PDNx bit or the PDN_ALL bit must be set. To min-

imize audible artifacts during the power-down process, the CS3318 automatically places each channel in

mute before the amplifier begins its power-down sequence.

The power-up and power-down muting/volume changes are implemented as dictated by the zero-crossing

detection settings (see “Zero-Crossing Detection” on page 22). If an immediate power-up or power-down is

required, the zero-crossing mode should be set to immediate before changing the power-down state of the

device or channel.

Referenced Control Register Location

PDN_ALL ............................ “Power Down All (Bit 0)” on page 35

PDNx................................... “Channel Power - Address 0Dh” on page 35