CP2114-EK [SILICON]

EVALUATION KIT USERS GUIDE;


型号：	CP2114-EK
厂家：	SILICON
描述：	EVALUATION KIT USERS GUIDE
文件：	总26页 (文件大小：1673K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

CP2114-EK

CP2114 EVALUATION KIT USER’S GUIDE

1. Kit Contents

The CP2114 Evaluation Kit is available in four configurations shown in Table 1:

Table 1. Evaluation Kits

Kit Name

Components

CP2114-EK

CP2114 evaluation board

USB cable

RS-232 serial cable

CP2114-CS42L55EK

CP2114 evaluation board

Daughter card with Cirrus Logic CS42L55 CODEC

Ear bud headphones

Audio cable (3.5 mm male to male)

USB Cable

RS-232 serial cable

CP2114-WM8523EK

CP2114-PCM1774EK

CP2114 evaluation board

Daughter card with Wolfson Microelectronics WM8523 DAC

Ear bud headphones

USB Cable

RS-232 serial cable

CP2114 evaluation board

Daughter card with Texas Instruments PCM1774 DAC

Ear bud headphones

USB Cable

RS-232 serial cable

This document applies to all CP2114 kits.

2. Software Setup

The example applications as well as additional documentation can be found here: www.silabs.com/CP2114

AN721 Software (AN721SW)

USB and GPIO configuration utility: See AN721 for more information on customizing USB and GPIO settings.

Audio (DAC/CODEC) configuration utility: See Section 4 for more information using the DAC Configuration utility.

CP2114 Data Sheet

CP2114 Evaluation Kit User's Guide

AN433: CP2110/4 HID-to-UART API Specification

AN434: CP2110/4 Interface Specification

CP2114 Quick Start Guide

Rev. 0.1 10/12

CP2114-EK

3. CP2114 Hardware Interface

For information on using the CP2114, see the CP2114 Quick Start Guide, available at www.silabs.com/CP2114.

Figure 1, Figure 2, Figure 3, and Figure 4 show each evaluation board as well as important features.

RS-232

Connector

DAC Select

Jumpers

USB Active

and Suspend

LEDs

Microphone Input

Path

Daughter

Card

Connector

USB

Connector

TX and RX

Toggle LEDs

Volume Control

Buttons

Figure 1. CP2114 Evaluation Board Features

Rev. 0.1

CP2114-EK

Line Out

Connector

Headphone

Out

Connector

Daughter

Card

Connector

CS42L55

Codec

Analog

Input

Connector

Figure 2. CS42L55 Daughter Card Features

Line Out

Connector

Headphone

Out

Connector

Daughter

Card

Connector

WM8523

DAC

Figure 3. WM8523 Daughter Card Features

Rev. 0.1

CP2114-EK

Analog

Input

Connector

Headphone/

Line Out

Connector

Daughter

Card

Connector

PCM1774

DAC

Figure 4. PCM1774 Daughter Card Features

Rev. 0.1

CP2114-EK

4. DAC Configuration Application (AN721SW)

The DAC Configuration utility is an application within the AN721 software (AN721SW) package that allows audio

configuration strings to be sent to the CP2114 one-time programmable memory or RAM. The audio string is used

by the CP2114 to configure the DAC/CODEC. To access the DAC Configuration utility, run the AN721SW and

connect to the CP2114 device.

After connecting to the device, select Advanced Configuration, then DAC Configuration. After this, the DAC

Configuration utility shown in Figure 5 will appear. This AN721SW package is available at www.silabs.com/CP2114.

Figure 5. AN721: DAC Configuration

4.1. Application Command Descriptions

4.1.1. Get CP2114 Capabilities

This button will report the current configuration of the one-time programmable memory. With the default pin

configuration and no jumpers installed on GPIO.5, GPIO.6, GPIO.7, or GPIO.8, the utility will display the following:

* CP2114 Caps

AvailableBootIndices: 0x20

AvailableOtpConfigs: 0x1D

CurrentBootConfig: 0xFF

AvailableOtpConfigSpace: 0x1532

The AvailableBootIndices: 0x20 parameter indicates that all 32 boot index slots are available for programming.

The AvailableOtpConfigs: 0x1D parameter indicates that there are 29 CP2114 configurations available in the

one-time programmable memory.

Rev. 0.1

CP2114-EK

The CP2114 EVB ships with three default configurations in OTP at the following indices:

Index 0: Audio out and audio in streams both set to Asynchronous with CS42L55 DAC settings.

Index 1: Audio out and audio in streams both set to Asynchronous with WM8523 DAC settings.

Index 2: Audio out and audio in streams both set to Asynchronous with PCM1774 DAC settings.

The CurrentBootConfig parameter with a value of 0xFF indicates the CP2114 will not configure any DAC devices

on a reset or boot.This occurs when

DAC select input feature is turned on and no jumpers are installed on GPIO.5, GPIO.6, GPIO.7, and

GPIO.8.

DAC select input feature is turned on and the GPIO value is set to “Use OTP Boot Config” while no valid

boot config entry is found in the one-time programmable memory.

DAC select input feature is turned off and there is no valid Boot Config entry in the one-time programmable

memory.

The CP2114 has 32 programmable boot configuration entries by default. (The CP2114 boot configuration can be

changed up to a total of 32 times.)

The final parameter, AvailableOtPConfigSpace: 0x1532 indicates there are 0x1532 (5426) bytes of

programmable memory available to support new configurations.

4.1.2. Reset Device

This button forces a CP2114 reset.

4.1.3. Load Config Text from File

Loads configuration text from a file into the Config Text window.

4.1.4. Save Config Text to File

Saves the text in the Config Text window to a file.

4.1.5. Write Config Text to RAM

Writes the configuration displayed in the Config Text window into the CP2114 RAM. The DAC configurations are

also written to the DAC. This operation will cause the CP2114 to disconnect and reconnect on the USB bus. This

configuration is not retained on device reset.

4.1.6. Write Config Text to OTP

Writes the configuration in the Config Text window to the one-time programmable memory. The configuration does

not become the active configuration in RAM unless it’s specified in CP2114 Boot Config or via DAC select GPIO

pins followed by power cycling or resetting the device.

4.1.7. Read CP2114 Config from OTP

After specifying the configuration number in the text box to the right of the button and clicking the button, the utility

will display the one-time programmable memory configuration in the output window.

4.1.8. Set CP2114 Boot Config

After specifying the configuration number in the text box to the right of the button and clicking the button, the boot

configuration index is programmed into the one-time programmable memory space.

Note: The CP2114 boot configuration index can be changed up to 32 times.

4.1.9. Get DAC Registers

Displays one or more DAC registers in the output window. To display a contiguous range of DAC registers enter the

starting register address in the Start Address field and the number of registers to read in the Num Registers field.

Click Get DAC Registers and the register values will be displayed in the status window as hex comma-separated

values.

4.1.10. Save Final Device Customization to File

Save the final 5.5 kB of customized data into a file for one-time programming in production.

Rev. 0.1

CP2114-EK

4.2. Using the Application

Use the following steps to program the CP2114 using the DAC configuration utility:

1. Click Get CP2114 Capabilities and note the boot index, available OTP boot index slots, and available OTP

config space.

2. Click Load Config Text from File if there is one available; otherwise write the config text into the Config

Text window directly.

3. Click Write Config Text to RAM. This will cause CP2114 to re-enumerate over USB. Once CP2114 device

is seen by the Host again, verify the device's audio functionalities including volume control and mute

control. Adjust the value in Config Text if necessary and repeat Write Config Text to RAM until desired

result is achieved.

4. Verify the DAC registers have the desired setting by entering the Start Address and Num Registers and

clicking Get DAC Registers.

5. Click Save Config Text to File to save a copy of the text in the Config Text window.

6. Click Write Config Text to OTP after all functionalities have been completely verified in RAM. The new

config will consume one Boot Config index slot and some one-time programmable config space. The index

of this new config should be the next available index. For example, if Get CP2114 Capabilities returned

AvailableOtpConfigs of 0x1D, this Configuration index will be 3.

7. Enter the index of the new config and click Read CP2114 Config from OTP. Verify the data returned is as

expected.

8. Click Get CP2114 Capabilities and verify the available OTP config space is (2+Config Data bytes) less

than the previous value. The firmware inserts 2-byte length before the Config Data when writing to OTP.

Available OTP Configs should be 1 less than the previous value.

9. Enter the Configuration index of the new Config and click Set CP2114 Boot Config to make CP2114 to

boot from the new Config.

10. Reset the CP2114.

11. Verify CP2114 boots up properly with DAC functioning properly. Verify volume and mute integration with

the Host. Click Save Final Device Configuration to File for OTP programming in production.

4.3. Audio Configuration String Format

The audio configuration string input format is comma or space-separated hex values (a combination of comma and

space separation is not allowed).The CP2114 data sheet available at www.silabs.com/CP2114 discusses the audio

configuration string in detail.

Rev. 0.1

CP2114-EK

5. Evaluation Board Overview

5.1. CP2114-EB Overview

The CP2114 Evaluation Kit includes an evaluation board with a CP2114 device pre-installed for user evaluation and

software development. Numerous input/output (I/O) connections are provided to facilitate prototyping using the eval-

uation board. Refer to Figure 6 for the locations of the various I/O connectors.

Daughter card connector

USB connector for USB interface

DB9 connector for RS-232 interface

CP2114 pin connector

VIO power connector

REGIN Power Connector and Self-Powered Mode Connector

Test point connector

Si500 enable connector

SCKIN to SCK connector

DAC selection connector

Green USB ACTIVE LED connector

Red USB SUSPEND LED connector

Daughter card reset connector

CP2114 GPIO signal header

JP00-JP30

JP40

JP41

JP42

JP43

JP44

JP45

JP46

JP47

JP48

JP49

JP50, JP52 Daughter card GPIO signal header

SW1-SW4

SW5

Red record mute LED

Red receive toggle LED

Red transmit toggle LED

Red USB SUSPEND LED

Green USB ACTIVE LED

Audio control buttons

Reset button

Rev. 0.1

CP2114-EK

DAC Select

JP45

RESET

ACTIVE

SUSPEND

JP17

JP16

JP15

JP14

JP13

JP12

JP11

JP10

JP40

CP2114

JP48

Si500

JP43

SILICON LABS

CP2114-EB

www.silabs.com

VOL +

PB MUTE REC MUTE VOL -

Figure 6. CP2114 Evaluation Board with Default Shorting Blocks Installed

5.1.1. Daughter Card Connector (J1)

The J1 connector is used to connect to a CP2114 daughter card.

5.1.2. Universal Serial Bus (USB) Interface (J2)

A Universal Serial Bus (USB) connector (J2) is provided to facilitate connections to the USB interface on the

CP2114. See Table 2 for the USB pin definitions.

Table 2. USB Connector Pin Descriptions

Pin #

Description

VBUS

D–

D+

GND (Ground)

Rev. 0.1

CP2114-EK

5.1.3. UART Signals (J3)

An RS-232 transceiver circuit and DB9 connector (J3) are provided on the evaluation board to connect the CP2114

to external serial devices. See Table 3 for the RS-232 J3 pin descriptions.

Table 3. RS-232 Pin Descriptions

CP2114

Signal

Description

Direction

Input

RXD

TXD

GND

RTS

CTS

Receive Data

Transmit Data

Ground

Output

Input

Request to Send

Clear to Send

5.1.4. CP2114 Pin Connectors (JP00-JP30)

The JP00-JP30 connectors connect and disconnect CP2114 pins from external circuits. By default, all of these

jumpers are populated.

5.1.5. VIO Power Connector (JP40)

This header (JP40) is included on the evaluation board to provide VIO power options. Populating the shorting block

connects the CP2114 VIO input (pin 6) to CP2114 VDD (pin 7). Remove the shorting block to power VIO from an

external source and connect the power source to pin 2 of the header.

5.1.6. REGIN Power Connector and Self-Powered Mode Connector (JP41)

The JP41 header is used to connect the CP2114 REGIN pin (pin 8) to the VBUS source from the USB connector

(default) or to the CP2114 VDD pin (pin 7). When connected to the VBUS source, the device is intended for bus-

powered operation. When connected to the CP2114 VDD pin, the device is intended for self-powered operation. In

self-powered operation, an external power source can be connected to the JP41 header to power the VDD pin

directly.

5.1.7. Test Point Connector (JP42)

The JP42 header contains test points and is not used in normal operation.

5.1.8. Si500 Enable Connector (JP43)

The JP43 header controls the power to the Si500 CMOS clock. Shorting pin 1 to pin 2 on the header will connect

CP2114 VDD (pin 7) to the Si500. Shorting pin 2 to pin 3 on the header will place the Si500 in powerdown mode.

The setting of JP43 depends on the desired clocking mode.

5.1.9. SCK to SCKIN Connector (JP44)

The JP44 jumper should be left installed.

5.1.10. DAC Selection Connector (JP45)

The JP45 header is used to select the CP2114 boot configuration after a reset. When a jumper is populated, the

corresponding GPIO pin in connected to ground. When a jumper is removed, the corresponding GPIO pin is

weakly pulled high.

Note: If any of the four DAC select pins are configured for a function other than DAC selection, the CP2114 will not use the

DAC select pins to choose a boot configuration.

5.1.11. Green USB ACTIVE LED and Connector (JP46, D6)

The JP46 header is used to connect the CP2114 SUSPEND pin (pin 18) to the D6 green LED. When the LED is on,

the device has enumerated with the PC operating normally. When the LED is off, the device has not yet

enumerated or is in the USB Suspend state.

5.1.12. .Red USB SUSPEND LED and Connector (JP47, D5)

Rev. 0.1

CP2114-EK

The JP47 header is used to connect the CP2114 SUSPEND pin (pin 17) to the D5 red LED. When the LED is on,

the device has enumerated with the PC operating normally. When the LED is off, the device has not yet

enumerated or is in the USB Suspend state.

5.1.13. Daughter Card Reset Connector (JP48)

The JP48 header connects reset to the GPIO4_C pin on the daughter card connector (J1). On the CS42L55

daughter card, GPIO4_C is connected to the CS42L55 RESET pin. The GPIO4_C pin is unconnected on the

WM8523 and PCM1774 daughter cards because the DACs do not have a hardware reset input.

5.1.14. CP2114 GPIO Signal Connector (JP49)

The connector JP49 provides easy access to all of the CP2114 GPIO signals.

5.1.15. Daughter Card Signal Header (JP50, JP52)

The headers JP50 and JP52 allow the connection of GPIO0-4 signals to the corresponding daughter card signals

(GPIOx_C). These jumpers can be used to route the appropriate GPIO signals to a custom daughter card.

5.1.16. Audio Control Buttons and Red Record Mute LED (SW1-SW4, D2)

SW1 through SW4 send audio control commands when pressed. In addition, the red record mute LED (D2) will

turn on when the record mute button is pressed (SW4).

Table 4. Audio Control Buttons

LED

Pins

Volume –

Volume +

Playback Mute

Record Mute

5.1.17. Red Receive Toggle and Transmit Toggle LEDs (D3, D4)

The LEDs D3 and D4 will toggle when transmitting and receiving UART data. In order to use this functionality, the

GPIO pins must first be configured for TX Toggle and RX Toggle modes. By default, these pins are used for DAC

select 0 and DAC select 1.

5.1.18. Reset Button (SW5)

SW5 externally pulls the CP2114 reset pin (pin 10) low when pressed. If SW5 is held down, the CP2114 will remain

in reset until the button is released.

Rev. 0.1

CP2114-EK

5.2. CS42L55-EB Overview

The CS42L55 evaluation board contains a pre-installed CS42L55 for evaluation and preliminary software develop-

ment with the CP2114 evaluation board. Refer to Figure 7 for the locations of the various I/O connectors on the

CS42L55-EB.

Daughter card connector

Analog input connector

Line output connector

J1-J5

J9, J10

Headphone output connector

I2S/I2C signal connectors

LINE OUT

HP OUT

J10

CS42L55

AIN

SILICON LABS

CP2114-CS42L55-EVB

www.silabs.com

Figure 7. CS42L55 Evaluation Board with Default Shorting Blocks Installed

5.2.1. Daughter Card Connector (P1)

The P1 connector is used to connect to a CP2114 evaluation board (CP2114-EB). The CS42L55-EB must be

plugged into a CP2114 evaluation board to function properly.

5.2.2. Analog Input Connector (P2)

The P2 connector is used to connect an input device to the CS42L55 evaluation board.

5.2.3. Line Output Connector (P3)

The P3 connector is used to connect powered speakers to the CS42L55 evaluation board.

5.2.4. Headphone Output Connector (P4)

The P4 connector is used to connect headphones to the CS42L55 evaluation board.

5.2.5. I2S/I2C Signal Connectors (JP1-JP5, JP9, JP10)

Connectors JP1 through JP7, JP9, and JP10 are provided to allow access to the I2S/I2C signals between the

CP2114 and CS42L55. Placing a shorting block between pins 1 and 2 will connect the CP2114 to the CS42L55.

Placing a shorting block between pins 2 and 3 will connect the corresponding CS42L55 pin to ground. When

monitoring the I2S signals, connect the scope probe ground lead to the adjacent ground pin.

Rev. 0.1

CP2114-EK

5.3. WM8523-EB Overview

The WM8523 evaluation board contains a pre-installed WM8523 for evaluation and preliminary software develop-

ment with the CP2114 evaluation board. Refer to Figure 8 for the locations of the various I/O connectors on the

WM8523-EB.

Daughter card connector

Line output connector

Headphone output connector

I2S and I2C signal connectors

Voltage regulator input connector

WM8253 supply voltage header

WM8253 supply voltage connector

Headphone amplifier SHDN header

Ground header

JP2-JP10

JP11

JP12

JP13

JP14

JP15

JP16-JP20

GPIO header for SHDN control

HP OUT

JP15

JP12

JP13

JP9

JP10

JP14

LINE OUT

JP11

JP19

JP20

JP16

JP17

JP18

JP7

JP8

JP5

JP6

JP3

JP4

JP2

WM8523

SILICON LABS

CP2114-WM8523-EVB

www.silabs.com

Figure 8. WM8253 Evaluation Board with Default Shorting Blocks Installed

5.3.1. Daughter Card Connector (J1)

The J1 connector is used to connect to a CP2114 evaluation board (CP2114-EB). The WM8253-EB must be

plugged into a CP2114 evaluation board to function properly.

5.3.2. Line Output Connector (J2)

The J2 connector is used to connect powered speakers to the WM8253 evaluation board.

5.3.3. Headphone Output Connector (J3)

The J3 connector is used to connect headphones to the WM8253 evaluation board.

5.3.4. I2S/I2C Signal Connectors (JP2-JP10)

Connectors JP2 through JP10 are provided to allow access to the I2S/I2C signals between the CP2114 and

WM8253. Placing a shorting block between pins 1 and 2 will connect the CP2114 to the WM8253. Placing a

shorting block between pins 2 and 3 will connect the corresponding WM8253 pin to ground. When monitoring the

I2S signals, connect the scope probe ground lead to the adjacent ground pin.

Rev. 0.1

CP2114-EK

5.3.5. Voltage Regulator Connector (JP11)

The JP11 connector is used to connect the VBUS signal being supplied to the CP2114 to the input of the voltage

regulator on the WM8253 evaluation board. Installing this jumper connects the VBUS signal to the regulator output.

If another voltage supply is used, JP11 should be removed and the supply should be connected to pin 2 of the

header.

5.3.6. WM8253 Supply Voltage Header (JP12)

The JP12 header provides access to the WM8253 supply voltage.

5.3.7. WM8253 Supply Voltage Connector (JP13)

This header (JP13) is included on the evaluation board to provide several power options for the WM8253. The

following describes the function of each pin:

Shorting pins 1,2: Connects the regulator output on the WM8253-EB to the supply of the WM8253.

Shorting pins 2,3: Connects the CP2114 VDD (CP2114 pin 7) to the supply of the WM8253.

5.3.8. Headphone Amplifier SHDN Header (JP14, JP16–JP20)

The jumpers JP14 and JP16-JP20 control the headphone amplifier shutdown (SHDN) pin. The headphone

amplifier is enabled when SHDN is high and disabled when SHDN is low. In the default configuration (jumper

shorting pins1 and 2), the headphone amp is always enabled. Shorting pins 2 and 3 on JP14 will disable the

headphone amplifier. Removing JP14 and connecting one of JP16-JP20 allows the host to control the headphone

amp via GPIO pin. In this case, the corresponding GPIO-GPIO_C jumper must also be installed on the CP2114-EK

board.

5.3.9. Ground Header (JP15)

The JP15 header provides access to ground.

Rev. 0.1

CP2114-EK

5.4. PCM1774-EB Overview

The PCM1774 evaluation board includes contains a pre-installed a PCM1774 for evaluation and preliminary soft-

ware development with the CP2114 evaluation board. Refer to Figure 9 for the locations of the various I/O connec-

tors on the PCM1774-EB.

Daughter card connector

Headphone/line output connector

Analog input connector

JP1-JP7

JP8

JP9

I2S signal connectors

Voltage regulator connector

PCM1774 supply voltage connector

JP15, JP16 External capacitor connectors

ANALOG IN

JP9

HP/LINE OUT

JP8

JP6

JP7

JP4

JP5

JP2

JP3

JP1

JP15

JP16

PCM1774

SILICON LABS

CP2114-PCM1774-EVB

www.silabs.com

Figure 9. PCM1774 Evaluation Board with Default Shorting Blocks Installed

5.4.1. Daughter Card Connector (J1)

The J1 connector is used to connect to a CP2114 evaluation board (CP2114-EB). The PCM1774-EB must be

plugged into a CP2114 evaluation board to function properly.

5.4.2. Headphone/Line Output Connector (J2)

The J2 connector is used to connect headphones or powered speakers to the PCM1774 evaluation board.

5.4.3. Analog Input Connector (J3)

The J3 connector is used to connect an input device to the PCM1774 evaluation board.

5.4.4. I2S/I2C Signal Connectors (JP1–JP7)

Connectors JP1 through JP7 are provided to allow access to the I2S/I2C signals between the CP2114 and

PCM1774. Placing a shorting block between pins 1 and 2 will connect the CP2114 to the PCM1774. Placing a

shorting block between pins 2 and 3 will connect the corresponding PCM1774 pin to ground. When monitoring the

I2S signals, connect the scope probe ground lead to the adjacent ground pin.

5.4.5. Voltage Regulator Connector (JP8)

The JP8 connector is used to connect the VBUS signal being supplied to the CP2114 to the input of the voltage

regulator on the PCM1774 evaluation board. Installing this jumper connects the VBUS signal to the regulator

output. If another voltage supply is used, JP8 should be removed and the supply should be connected to pin 2 of

the header.

Rev. 0.1

CP2114-EK

5.4.6. PCM1774 Supply Voltage Connector (JP9)

This header (JP9) is included on the evaluation board to provide several power options for the PCM1774. The

following describes the function of each pin:

Shorting pins 1,2: Connects the regulator output on the PCM1774-EB to the supply of the PCM1774.

Shorting pins 2,3: Connects the CP2114 VDD (CP2114 pin 7) to the supply of the PCM1774.

5.4.7. External Capacitor Connectors (JP15, JP16)

The JP15 and JP16 connectors allow external capacitors to be connected to the HP/LINE OUT connector. For best

low frequency response (35 Hz cutoff), remove the jumpers on JP15 and JP16. For maximum power output (45 Hz

cutoff), place the jumpers on JP15 and JP16.

Rev. 0.1

CP2114-EK

6. Schematics

Rev. 0.1

CP2114-EK

Rev. 0.1

CP2114-EK

Rev. 0.1

CP2114-EK

Rev. 0.1

CP2114-EK

7. Bill of Materials

Table 5. CP2114 Evaluation Board (CP2114-EB) Bill of Materials

Reference

Part Number

Source

Venkel

Description

C18

C0603X5R6R3-475K

C0603X7R250-104K

4.7 µF 6.3 V ±10% X5R 0603

0.1 µF 25 V ±10% X7R 0603

C19 C20

C21 C22

C6 C8 C13

C23 C25

C0603X5R160-105K

C0402X7R160-104K

Venkel

1 µF 16 V ±10% X5R 0603

0.1 µF 16 V ±10% X7R 0402

C7 C9 C10

C11 C12 C14

C15 C16

C17 C24

C26

SP0503BAHTG

SML-LX0603IW

Littlefuse

Lumex Inc.

300 mW 20 V TVS SOT143-AKKK

RED 30 mA LED 0603

D2 D3 D4 D5

SML-LX0603GW

GREEN 25 mA LED 0603

PCN10C-20S-2.54DS(72)

Hirose Electric Co Ltd CONN, DIN HEADER, 20POS, DUAL R/A,

FEMALE

292304-1

Tyco

FCI

USB Type B Connector

DB9 MALE RA D-SUB

D09P33E4GX00LF

TSW-102-07-T-S

J4 JP00

JP03 JP04

JP05 JP06

JP07 JP10

JP11 JP12

JP13 JP14

JP15 JP16

JP17 JP20

JP21 JP22

JP23 JP24

JP25 JP26

JP30 JP40

JP44 JP46

JP47 JP48

JP52

Samtec

JUMPER Header CONN1X2

JP01 JP02

JP41 JP42

JP43 JP50

TSW-103-07-T-S

Samtec

JUMPER Header CONN1X3

JP45

JP49

TSW-104-07-T-D

TSW-112-07-T-S

Samtec

JUMPER Header CONN4x2

JUMPER Header CONN1x12

Rev. 0.1

CP2114-EK

Table 5. CP2114 Evaluation Board (CP2114-EB) Bill of Materials

Reference

Part Number

Source

Description

JS1 JS2 JS3

JS4 JS5 JS6

JS7 JS8 JS9

JS10 JS11

JS12 JS13

JS14 JS15

JS16 JS17

JS18 JS19

JS20 JS21

JS22 JS23

JS24 JS30

JS32 JS33

JS35 JS37

JS38 JS39

JS40 JS41

SNT-100-BK-T

Samtec

Jumper Shunt

R1 R2 R3 R4

CR0402-16W-471J

CR0603-10W-103J

Venkel

470 1/16 W ±5% ThickFilm 0402

10K 1/10 W ±5% ThickFilm 0603

R21 R22

R23 R24

R25 R26

R28 R30

R32

R27 R29

R31 R33

CR0603-10W-472J

CR0201-20W-33R0F

Venkel

4.7K 1/10 W ±5% ThickFilm 0603

33 1/20 W ±1% ThickFilm 0201

R34 R35

R36 R37

R38 R39

R40 R41

R5 R6

R7 R8

CR0603-16W-102J

CR0603-10W-1201F

EVQ-PAD04M

Venkel

1K 1/16 W ±5% ThickFilm 0603

1.20K 1/10 W ±1% ThickFilm 0603

Momentary Tactile Switch SW4N6.5X4.5

S1 S2 S3 S4

Panasonic Corp

TP11 TP12

TP13 TP14

TP15 TP16

TP17 TP18

TP19 TP20

TP21 TP22

151-207-RC

Kobiconn

RED Loop Testpoint

CP2114-B01-GM

Silicon Laboratories CP2114 USB Audio to Digital Audio Bridge

QFN32N5X5P0.5

SP3223EUCY-L

Exar Corporation

SiLabs

RS232 Transceiver TSSOP20N6.4P0.65

500SAAC48M0000ACF

48 MHz 3.3 V CMOS ±150PPM Si500S

OSC4N3.2X4.0

Rev. 0.1

CP2114-EK

Table 6. Cirrus Logic CS42L55 Evaluation Board (CS42L55-EB) Bill of Materials

Reference

Part Number

Source

Description

C8-10 C28-

C0603C104J3RACTU

Kemet

CAP, 0.1 µF, X7R, CERAMIC, 0603, 25 V,

±5%, OR EQ, RoHS.

C15-16 C19

C33

C1608X7R1C105K

CC0805JRNPO9BN102

EMK212BJ106KG-T

TDK Corporation

Yageo

CAP CERAMIC, 1.0 µF, X7R, 0603, 16 V,

±10%, OR EQ, RoHS.

C13-14

CAP CERAMIC, 1000 pF, NPO, 0805, 50 V,

±5%, OR EQ, RoHS.

Taiyo Yuden

CAP, CER, 10µF, 16V, X5R, 0805 OR EQ,

RoHS

C20-21

C17-18

C3-7 C11-12

ECJ-2VC1H152J

Panasonic Electronic CAP, 1500 pF, NP0, CERAMIC, 0805, 50 V

Components

, ±5%, OR EQ, RoHS.

GRM2165C1H182JA01D

GRM188R61C225KE15D

EMK212BJ475KG-T

Murata Electronics

North America

CAP, 1800 pF, NP0, CERAMIC, 0805, 50 V

, ±5%, OR EQ, RoHS.

Murata Electronics

North America

CAP, 2.2 µF , CERAMIC , 16 V , X5R,

0603, ±10% , OR EQ, RoHS.

Taiyo Yuden

CAP, CER, 4.7 µF, 16 V, 10%, X5R, 0805

OR EQ, RoHS.

PCN10-20P-2.54DS(72)

Hirose Electric Co Ltd CONN, DIN HEADER, 20POS, DUAL R/A,

MALE, RoHS.

CS42L55-CNZ

PBC02SAAN

Cirrus Logic Inc

STEREO CODEC,QFN36-5X5 mm , RoHS.

Sullins Connector

Solutions

STAKE HEADER, 1X2, 0.1"CTR, GOLD,

OR EQ, RoHS.

J1-5 J9-10

PBC03SAAN

Sullins Connector

Solutions

STAKE HEADER, 1X3, 0.1" CTRS, OR EQ,

RoHS.

LT1963AEST-2.5

ERJ-3EKF1000V

Linear Technology

LDO REG, 2.5 V, 1.5 A, SOT223

R10-11

Panasonic Electronic RES, 100 OHM, SMT, 0603, 1/10 W, ±1%,

Components

OR EQ, RoHS.

R8-9

RT0805FRE0733R2L

ERJ-6ENF5620V

Yageo

RES, 33.2 OHM, SMT, 0805, 1/8 W, ±1%,

OR EQ, RoHS.

R12-13

Panasonic Electronic

Components

RES, 562 OHM, SMT, 0805, 1/8 W, ±1%,

OR EQ, RoHS.

R1-5

N/A

SOLDER BUMP JUMPER, NC, 0402

SH1-7

SPC02SYAN

Sullins Connector

Solutions

CONN, JUMPER SHORTING, TIN, OR EQ,

RoHS.

SF1-4

P2-4

TP3

SJ61A6

SJ1-3535NG

5002

BUMPON PROTECTIVE, BUMPER ,

SILICONE, OR EQ, RoHS.

CUI Inc

CONN, JACK STEREO, 3 POS, 3.5 MM,

PTH, RoHS.

Keystone Electronics

TEST POINT, PC COMPACT, .063"D

WHITE, OR EQ, RoHS.

Components Not Installed (NI)

RES, SMT, 0603, OR EQ, RoHS. (NI)

R6-7

Rev. 0.1

CP2114-EK

Table 7. Wolfson Microelectronics WM8523 Evaluation Board (WM8523-EB) Bill of Materials

Reference

Part Number

Source

Description

C1 C2 C15

C16

C0805X5R160-475K

Venkel

4.7 µF 16 V ±10% X5R 0805

C19 C20

C1206X7R250-105K

C0805X7R160-105M

Venkel

1 µF 25 V ±10% X7R 1206

1 µF 16 V ±20% X7R 0805

C4 C7 C12

C13 C14

C8 C9

C0603X7R100-225K

C1206C0G500-473J

PCN10-20P-2.54DS(72)

Venkel

2.2 µF 10 V ±10% X7R 0603

47 nF 50 V ±5% COG 1206

Hirose Electric Co Ltd CONN, DIN HEADER, 20POS, DUAL R/A,

MALE, RoHS.

J2 J3

SJ1-3535NG

CUI

Audio Jack

JP11 JP12

JP15 JP16

JP17 JP18

JP19 JP20

TSW-102-07-T-S

Samtec

JUMPER Header CONN1X2

JP2 JP3 JP4

JP5 JP6 JP7

JP8 JP9

JP10 JP13

JP14

TSW-103-07-T-S

Samtec

JUMPER Header CONN1X3

Jumper Shunt

JS1 JS2 JS3

JS4 JS5 JS6

JS7 JS8 JS9

JS10 JS11

SNT-100-BK-T

Samtec

Venkel

R1 R2 R5 R6

R7 R10 R11

CR0603-10W-1002F

10K 1/10 W ±1% ThickFilm 0603

127 1/10 W ±1% ThickFilm 0603

R8 R9

CR0603-10W-1270F

SJ61A6

Venkel

SF1 SF2

SF3 SF4

BUMPON PROTECTIVE, BUMPER , SILI-

CONE, OR EQ, RoHS.

WM8523GEDT

Wolfson

WM8523GEDT DAC TSSOP20N6.4P0.65

Microelectronics

LT1963AEST-3.3#PBF

MAX9722AETE

Linear Technologies

Maxim

3.3 V 1.5 A max LDO SOT223

130 mW 2.4 V-5.5 V AMPLIFIER

QFN16N3X3P0.5E

Rev. 0.1

CP2114-EK

Table 8. Texas Instruments PCM1774 Evaluation Board (PCM1774-EB) Bill of Materials

Reference

Part Number

Source

Description

C1 C2 C15

C16 C19

C20 C21

C0805X5R160-475K

Venkel

4.7 µF 16 V ±10% X5R 0805

C10 C11

C17 C18

TA016TCM106KA

ECA1CM221

Venkel

10 µF 16 V ±10% TANT C3216

Panasonic

220 µF 16 V ±20% Alum_Elec

C2.5X6.3 MM

C22 C23

C24 C25

C0603X7R250-104K

Venkel

0.1 µF 25 V ±10% X7R 0603

PCN10-20P-2.54DS(72)

Hirose Electric Co Ltd CONN, DIN HEADER, 20POS, DUAL R/A,

MALE, RoHS.

J2 J3

SJ1-3535NG

CUI

Audio Jack

JP1 JP2 JP3

JP4 JP5 JP6

JP7 JP9

TSW-103-07-T-S

Samtec

JUMPER Header CONN1X3

JP8 JP15

JP16

TSW-102-07-T-S

SNT-100-BK-T

Samtec

JUMPER Header CONN1X2

Jumper Shunt

JS1 JS3 JS4

JS6 JS7 JS9

JS10 JS11

JS12

R10 R11 R12

R13 R14

R15

CR0603-16W-22R0F

Venkel

22 1/16 W ±1% ThickFilm 0603

CR0603-10W-1002F

CR0805-10W-4R7J

SJ61A6

Venkel

10K 1/10 W ±1% ThickFilm 0603

4.7 1/10 W ±5% ThickFilm 0805

R8 R9

SF1 SF2

SF3 SF4

BUMPON PROTECTIVE, BUMPER , SILI-

CONE, OR EQ, RoHS.

TP1 TP2

TP3

151-207-RC

Kobiconn

RED Loop Testpoint

PCM1774RGP

Texas Instruments

Linear Technologies

PCM1774 DAC QFN20N4X4P0.5

3.3 V 1.5 A max LDO SOT223

LT1963AEST-3.3#PBF

Rev. 0.1

CP2114-EK

CONTACT INFORMATION

Silicon Laboratories Inc.

400 West Cesar Chavez

Austin, TX 78701

Tel: 1+(512) 416-8500

Fax: 1+(512) 416-9669

Toll Free: 1+(877) 444-3032

Please visit the Silicon Labs Technical Support web page:

https://www.silabs.com/support/pages/contacttechnicalsupport.aspx

and register to submit a technical support request.

Patent Notice

Silicon Labs invests in research and development to help our customers differentiate in the market with innovative low-power, small size, analog-

intensive mixed-signal solutions. Silicon Labs' extensive patent portfolio is a testament to our unique approach and world-class engineering team.

The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice.

Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from

the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features

or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, rep-

resentation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability

arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation conse-

quential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to

support or sustain life, or for any other application in which the failure of the Silicon Laboratories product could create a situation where per-

sonal injury or death may occur. Should Buyer purchase or use Silicon Laboratories products for any such unintended or unauthorized ap-

plication, Buyer shall indemnify and hold Silicon Laboratories harmless against all claims and damages.

Silicon Laboratories and Silicon Labs are trademarks of Silicon Laboratories Inc.

Other products or brandnames mentioned herein are trademarks or registered trademarks of their respective holders.

Rev. 0.1

CP2114-EK [SILICON]

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