CY4541 EZ-PD™ CCG4 Evaluation Kit Guide.pdf

CY4541 EZ-PD™ CCG4 Evaluation Kit Guide
Doc. No. 002-10353 Rev. *C
Cypress Semiconductor
198 Champion Court
San Jose, CA 95134-1709
Phone (USA): 800.858.1810
Phone (Intnl): 408.943.2600
www.cypress.com
Copyrights
Copyrights
© Cypress Semiconductor Corporation, 2016. The information contained herein is subject to change without notice. Cypress
Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress
product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to
be used for medical, life support, life-saving, critical control or safety applications, unless pursuant to an express written agreement
with Cypress. Furthermore, Cypress does not authorize its products for use as critical components in life-support systems where
a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress products in
life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress
against all charges.
Trademarks
EZ-PD is a trademark of Cypress Semiconductor Corp. All other trademarks or registered trademarks referenced herein are
property of the respective corporations.
Source Code
Any Source Code (software and/or firmware) is owned by Cypress Semiconductor Corporation (Cypress) and is protected by and
subject to worldwide patent protection (United States and foreign), United States copyright laws and international treaty provisions.
Cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative
works of, and compile the Cypress Source Code and derivative works for the sole purpose of creating custom software and or
firmware in support of licensee product to be used only in conjunction with a Cypress integrated circuit as specified in the applicable
agreement. Any reproduction, modification, translation, compilation, or representation of this Source Code except as specified
above is prohibited without the express written permission of Cypress.
Disclaimer
CYPRESS MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS MATERIAL, INCLUDING,
BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
Cypress reserves the right to make changes without further notice to the materials described herein. Cypress does not assume
any liability arising out of the application or use of any product or circuit described herein. Cypress does not authorize its products
for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in
significant injury to the user. The inclusion of Cypress’ product in a life-support systems application implies that the manufacturer
assumes all risk of such use and in doing so indemnifies Cypress against all charges.
Use may be limited by and subject to the applicable Cypress software license agreement.
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
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Contents
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide ...................................................................................................................... 1
Contents.................................................................................................................................................................................. 3
1.
Safety Information ......................................................................................................................................................... 5
1.1
1.2
2.
Introduction .................................................................................................................................................................... 7
2.1
2.2
2.3
3.
4.4
4.5
CY4541 EZ-PD CCG4 EVK Architecture ............................................................................................................. 13
CY4541 EZ-PD CCG4 EVK ................................................................................................................................. 14
CCG EVK Base Board ......................................................................................................................................... 14
4.3.1 Block Diagram ........................................................................................................................................ 14
4.3.2 Features.................................................................................................................................................. 15
4.3.3 Connectors and Jumper Settings ............................................................................................................ 16
CY4541 CCG4 Daughter Card ............................................................................................................................ 18
4.4.1 Block Diagram ........................................................................................................................................ 18
4.4.2 Features.................................................................................................................................................. 19
4.4.3 Connectors and Jumper Settings ............................................................................................................ 20
CCG EVK Base Board and CCG4 Daughter Card Revisions .............................................................................. 22
Programming the CCG4 Device.................................................................................................................................. 24
5.1
6.
CY4541 EZ-PD CCG4 EVK Kit Software Installation............................................................................................. 9
CY4541 EZ-PD CCG4 EVK Hardware ......................................................................................................................... 13
4.1
4.2
4.3
5.
Kit Contents ........................................................................................................................................................... 7
2.1.1 Hardware Not Included With the Kit .......................................................................................................... 7
Getting Started....................................................................................................................................................... 8
List of Recommended Hardware ........................................................................................................................... 8
Kit Installation ................................................................................................................................................................ 9
3.1
4.
Regulatory Compliance ......................................................................................................................................... 5
General Safety Instructions ................................................................................................................................... 6
1.2.1 ESD Protection ......................................................................................................................................... 6
1.2.2 Handling Boards ....................................................................................................................................... 6
Programming CCG4 Device on the CY4541 CCG4 Daughter Card .................................................................... 24
Kit Operation ................................................................................................................................................................ 28
6.1
Power Supply Connections .................................................................................................................................. 28
6.1.1 Valid Power Supply Connections ............................................................................................................ 30
6.1.2 Invalid Power Supply Connections ......................................................................................................... 33
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Contents
6.2
6.3
6.1.3 Non Recommended Power Supply Connections with Custom Firmware................................................ 34
Dual Role Port (DRP) and SuperSpeed USB Demo ............................................................................................ 37
6.2.1 Boards, Cables, and Accessories ........................................................................................................... 37
6.2.2 Running the DRP SuperSpeed USB Demo ............................................................................................ 38
6.2.3 Common Problems and Troubleshooting................................................................................................ 43
DisplayPort Demo ................................................................................................................................................ 43
6.3.1 Boards, Cables, and Accessories ........................................................................................................... 43
6.3.2 Running the Single DisplayPort Demo .................................................................................................... 43
6.3.3 Running the Dual DisplayPort Demo ...................................................................................................... 44
6.3.4 Common Problems and Troubleshooting................................................................................................ 46
Appendix A: Terminology.................................................................................................................................................... 47
Appendix B: Schematic and Bill Of Materials .................................................................................................................... 49
B.1
B.2
B.3
B.4
CY4541 CCG4 Base Board Schematic ( Rev5* CCG EVK Base board) ............................................................. 49
CY4541 CCG4 Daughter Card Schematic (Rev 4* CCG4 Daughter Card) ......................................................... 54
Type-C to Type-A Adapter Schematic ................................................................................................................. 59
Bill of Materials .................................................................................................................................................... 60
B.4.1 CCG EVK Base Board BOM (Rev5 CCG EVK Base Board) .................................................................. 60
B.4.2 CY4541 CCG4 Daughter Card BOM (Rev 4 CCG4 Daughter Card) ...................................................... 64
B.4.3 Type-C to Type-A Adapter BOM ............................................................................................................. 68
Revision History ................................................................................................................................................................... 69
Document Revision History ........................................................................................................................................... 69
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1. Safety Information
1.1 Regulatory Compliance
The CY4541 EZ-PD CCG4 EVK is intended for use as a development platform for hardware or software in a laboratory
environment. The board is an open-system design, which does not include a shielded enclosure. Due to this reason, the board
may cause interference to other electrical or electronic devices in close proximity. In a domestic environment, this product may
cause radio interference. In such cases, take adequate preventive measures. Also, do not use this board near any medical
equipment or RF devices.
Attaching additional wiring to this product or modifying the product operation from the factory default may affect its performance
and cause interference with other apparatus in the immediate vicinity. If such interference is detected, suitable mitigating measures
must be taken.
The CY4541 EZ-PD CCG4 EVK as shipped from the factory has been verified to meet with requirements of CE as a Class A
product.
The CY4541 EZ-PD CCG4 EVK contains ESD-sensitive devices. Electrostatic charges readily accumulate
on the human body and any equipment, and can discharge without detection. Permanent damage may
occur on devices subjected to high-energy discharges. Proper ESD precautions are recommended to
avoid performance degradation or loss of functionality. Store unused CY4541 CCG4 EVK boards in the
protective shipping package.
End-of-Life/Product Recycling
This kit has an end-of-life cycle of five years from the year of manufacturing mentioned on the back of the
box. Contact your nearest recycler for discarding the kit.
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Safety Information
1.2 General Safety Instructions
1.2.1 ESD Protection
ESD can damage boards and associated components. Cypress recommends that you perform procedures only at an ESD
workstation. If an ESD workstation is not available, use appropriate ESD protection by wearing an antistatic wrist strap attached
to the chassis ground (any unpainted metal surface) on the board when handling parts.
1.2.2 Handling Boards
CY4541 EZ-PD CCG4 EVK boards are sensitive to ESD. Hold the board only by its edges. After removing the board from its box,
place it on a grounded, static-free surface. Use a conductive foam pad if available. Do not slide the board over any surface.
Any physical action on the CY4541 EZ-PD CCG4 EVK such as changing wires, jumper settings, or measuring voltages can cause
stress on the CY4541 printed circuit board assembly (PCBA) and Type-C connectors. You must ensure that the PCBA has proper
support on the bottom side to avoid stress on the PCBA when the EVK is in operation.
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2. Introduction
The CY4541 EZ-PD™ CCG4 Evaluation Kit (EVK) is based on the Cypress’s CCG4 dual port Type-C Power Delivery (PD)
controllers. EZ-PD™ CCG4 is a dual USB Type-C controller that complies with the latest USB Type-C and PD standards. This
EVK is primarily intended to be a demonstration vehicle for Type-C PC designs that house one or two Type-C ports. CCG4 can
act either as a power provider (Source) or as a power consumer (Sink). The kit also helps to evaluate several features on two
Type-C ports, using a Dual Role Port (DRP) or SuperSpeed USB demo, and a DisplayPort demo.
2.1 Kit Contents
The CY4541 EZ-PD CCG4 EVK contains the following items:

Two CCG EVK base boards assembled with one CY4541 CCG4 daughter card

One 24-V DC power adapter*

Two USB 3.0 Type-A to Type-B Cables

Two USB Type-C to Type-A adapters

One USB 3.0 EMCA (Electronically Marked Cable Assembly) Type-C cable*

One USB 2.0 Type-A to Mini-B cable

One set of jumper wires

One screwdriver

Quick Start Guide
Note: *The CY4541 EZ-PD CCG4 EVK supports power up to 100 W (20 V, 5 A). The power adapter provided with the kit can
support only up to 2.7 A (at 24 V). The USB 3.0 Type-C EMCA cable provided with the kit can support only up to 3 A.
2.1.1 Hardware Not Included With the Kit
The CY4541 EZ-PD CCG4 EVK does not come with all the hardware needed to perform the demonstrations documented in DRP
and SuperSpeed USB Demo. The following hardware is not included with this kit:

A multimeter to measure voltage.

Two USB pen drives for Kit Operation.

DisplayPort cables to connect the PC to the CCG EVK base board. If the PC has a Mini DisplayPort, then a Mini
DisplayPort to DisplayPort cable will be required.

Type-C to DP adapters (available on the web) to connect a display monitor to the CY4541 EZ-PD CCG4 EVK board,
which only has a DisplayPort interface.

Display Splitter adapter (available on the web) for the kit to operate during the dual DisplayPort demonstration.

A USB Type-C power adapter (available on the web) for DRP kit operation. Dual Type-C port operation requires a USB
Type-C power adapter that supports a 14-V to 20-V power profile.

A display monitor with DisplayPort (DP), HDMI, or VGA interface for the DisplayPort demonstration.

A PC with two USB ports. USB 3.0 ports and Windows XP, or later operating system, is recommended.
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Introduction
2.2 Getting Started
For instructions on how to run a quick demonstration and observe kit functionality, refer to DRP and SuperSpeed USB Demo.
2.3 List of Recommended Hardware
See Table 2-1 for the list of recommended hardware for this kit to demonstrate the Dual Role Port (DRP) and DisplayPort
Connection.
Table 2-1. List of Recommended Cables
No.
Description
Manufacturer
MPN
Vendor Link
1
DisplayPort to DisplayPort Cable (6”, gold plated)*
Cable Matters
102005-6
Cablematters Link
2
Mini DisplayPort to DisplayPort Cable (3”, gold plated)*
Cable Matters
101007-BLACK-3
Cablematters Link
3
Display Splitter Adapter
Lenovo
0B47092
Lenovo Link
4
USB Type-C to DisplayPort Adapter
Cable Matters
--
Amazon Link
USB Type-C to HDMI Adapter
Cable Matters
--
Amazon Link
USB Type-C to VGA Adapter
Cable Matters
--
Amazon Link
5
USB Type-C power adapter that supports 14V or above
Apple
--
Apple Store Link
6
USB 3.0 pen drive
SanDisk
--
Amazon Link
*Note: Use item 1 in Table 2-1 if the PC has a DisplayPort connector. Use item 2 in Table 2-1 if the PC has a Mini DisplayPort
connector.
Refer to the Knowledge Base Article KBA12598 for getting information on the known issues of Apple USB-C Digital AV Multiport
Adapter and Apple 29W USB-C Power Adapter while using with CY4541 EZ-PD CCG4 EVK.
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3. Kit Installation
This chapter describes how to install the CY4541 EZ-PD CCG4 EVK.
3.1 CY4541 EZ-PD CCG4 EVK Kit Software Installation
To install the kit software, follow these steps:
1.
Download the latest kit software setup, CY4541Setup.exe, from www.cypress.com/CY4541. This package contains the kit
hardware files, kit guide, and quick start guide. Double-click CY4541Setup.exe to start the installation. Click Next when the
screen shown in Figure 1 appears.
Figure 1. CY4541 EZ-PD CCG4 EVK Installer Screen
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Kit Installation
2.
Select the required Installation Type and click the Next button to start the installation (Figure 2). For first-time installation,
it is recommended that you select “Typical” as the Installation Type.
Figure 2. Installation Wizard
3.
Accept the license agreement for the software components and click Next (Figure 3) to proceed with the installation. If you
do not accept the terms in the agreement, click Cancel to exit from the installation.
Figure 3. License Agreement
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Kit Installation
4.
Figure 4 shows the installation progress. EZ-PD Configuration Utility also gets installed along with CY4541 EZ-PD CCG4
EVK.
Figure 4. Installation Progress
5.
Click Finish when complete (Figure 5).
Figure 5. Software Installation Complete
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Kit Installation
6.
When the installation is complete, you have the option to Launch Update Manager to ensure you have the latest software
package. Click the Check for updates button at the bottom of the window. If “No Updates” appears adjacent to the CY4541
EZ-PD CCG4 EVK, click the Exit button. If there are updates, click the Update button to download and install the latest kit
package.
Figure 6. Cypress Update Manager
Note: You can launch the Cypress Update Manager from Start > All Programs > Cypress > Cypress Update Manager.
The latest revision number of CY4541 EZ-PD CCG4 EVK may vary from the image shown in Figure 6.
7.
After the installation is complete, the contents are available at the following location:
<Install Directory>\CY4541 CCG4 EVK\1.0.
Note: On the Windows 32-bit platform, the default <Install Directory> is C:\Program Files\Cypress; on the Windows
64-bit platform, it is C:\Program Files(x86)\Cypress.
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4. CY4541 EZ-PD CCG4 EVK Hardware
4.1 CY4541 EZ-PD CCG4 EVK Architecture
Figure 7. CY4541 EZ-PD CCG4 EVK System-level Block Diagram
CY4541 CCG4 EVK
24V dc
power
adapter
PS
CCG EVK Base Board 1
DP1
USB3 -1
Mux
with Re
driver
Type-C
Port 1
USB
Type-C
cable
USB Type-C to
DP dongle
board
DP monitor
CC
MUX
SEL
USB3
PC DP
USB2
CY4541 CCG4 Daughter Card
DP
Splitter
CCG4
USB
Serial
USB3
DP2
USB3 -2
MUX CCG EVK Base Board 2
SEL
CC
Mux
with Re
driver
Type-C
Port 2
USB Type-C cable
Power Adapter
Universal AC
input
PS
CCG4 is a dual USB Type-C controller that complies with the latest USB Type-C and PD standards. CCG4 provides a complete
dual USB Type-C and USB-PD port control solution for PC designs. It can also be used in DRP applications in which a USB TypeC port can switch its power role from provider to consumer and vice-versa. CCG4 uses Cypress’s proprietary M0S8 technology
integrated with a 32-bit, 48-MHz ARM® Cortex®-M0 processor, 128-KB flash, and two Type-C transceivers including the Type-C
termination resistors RP and RD.
The CY4541 EZ-PD CCG4 EVK consists of two CCG EVK base boards and one CY4541 CCG4 daughter card. The CY4541
CCG4 daughter card is connected to the two CCG EVK base boards to evaluate the CCG4’s dual Type-C port capability as shown
in Figure 7.
The CCG EVK base board consists of a DC input power supply, a display multiplexer, a DisplayPort connector, a SuperSpeed
Type-B port, and a Type-C port. The CY4541 CCG4 daughter card consists of the CCG4 device and a USB-Serial IC to provide
a USB interface for debugging. CCG4‘s CC lines of the respective Type-C interface are connected to the Type-C port on the CCG
EVK base board. CCG4 controls the display multiplexer over an I2C interface.
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CY4541 EZ-PD CCG4 EVK Hardware
The CY4541 EZ-PD CCG4 EVK has a power provider and power consumer path control circuitry to showcase CCG4’s ability to
switch its power role from a provider to a consumer and vice-versa. This EVK has overvoltage and overcurrent protection circuitry
for VBUS and VCONN; it also supports programming CCG4 devices over SWD and I2C interfaces.
A PC with two USB 3.0 ports and a DisplayPort along with the CY4541 EZ-PD CCG4 EVK is equivalent to a PD-enabled dual
Type-C port PC.
4.2 CY4541 EZ-PD CCG4 EVK
Figure 8 shows the CY4541 EZ-PD CCG4 EVK setup, in which two CCG EVK base boards are connected to the CY4541 CCG4
daughter card.
Figure 8. CY4541 EZ-PD CCG4 EVK Setup
CCG EVK
Base Board 1
CY4541 CCG4
Daughter Card
CCG EVK
Base Board 2
The following sections describe the CCG EVK base board and daughter card design.
4.3 CCG EVK Base Board
The CCG EVK base board is an evaluation board equipped with a Type-C port, a SuperSpeed USB Type-B port, and a DisplayPort
interface. It is primarily intended as a demonstration board for PC designs that house a Type-C connector. The board also serves
as a vehicle to evaluate the alternate Type-C modes, using the DisplayPort demo as an example.
4.3.1 Block Diagram
Figure 9 shows the CCG EVK base board block diagram. It has an onboard Type-C connector for the USB-PD interface and a
CY4541 CCG4 daughter card interface connector to connect the CY4541 CCG4 daughter card. It also includes a SuperSpeed
USB Type-B port and a DisplayPort connector to source video. The SuperSpeed USB signals and DisplayPort signals are
connected to the Type-C connector through a display multiplexer controlled by the CCG4 device. A DC power adapter provides
input voltage to the onboard Power Management IC (PMIC). The output voltage from the PMIC can be selected using two voltage
selection lines, controlled by CCG4. This CCG EVK base board, along with the CY4541 CCG4 daughter card, helps convert any
desktop or notebook PC with legacy USB ports to operate as a Type-C USB host.
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CY4541 EZ-PD CCG4 EVK Hardware
USB
SuperSpeed
Port(J2)
DC
Power
Jack
(J1)
Power
Input
Header
(J12)
PMIC
(U3)
Voltage Selection
lines from
CCG4
D+/DUSB SuperSpeed
Lines
VBUS
VBUS
Consumer
Control
CC
from
CCG4
4
2
DisplayPort
Lines
Display
Port(J4)
2
Power
Output
Header
(J7)
VBUS
Provider
Control
Type-C Receptacle (J3)
Figure 9. CCG EVK base board Block Diagram
AUX Lines
Data MUX
(U5)
8
2
Hot Plug Detect
(HPD)
Data
Lanes
(Tx/Rx)
Control from
CCG4
4.3.2 Features
Table 4-1 shows the features of the CCG EVK base board.
Table 4-1. CCG EVK Base Board Features
Feature
Description
Power
Negotiated power from the DC power adapter controlled by PMIC and CCG4.
5 V from the Type-C connector (for dead battery support). For the dual Type-C port operation of this kit,
use a USB Type-C power adapter that supports a 9 V to 20 V power profile.
Note that the DC power adapter provided with the kit can support only up to 2.7A (at 24 V). This kit will
not work with 5 V DC power adapters.
CY4541 CCG4 daughter card
interface connector
Provides interface to connect the CY4541 CCG4 daughter card to the CCG EVK base board
Type-C Plug Orientation,
Detection and Alternate modes
I2C interface between CCG4 and the display multiplexer to select between SuperSpeed USB and 2-lane
or 4-lane DisplayPort.
Hot Plug Detect (HPD) for DisplayPort Alternate mode of operation.
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CY4541 EZ-PD CCG4 EVK Hardware
4.3.3 Connectors and Jumper Settings
Figure 10 shows the CCG EVK base board connectors and the default jumper settings.
Figure 10. CCG EVK Base Board Connectors
J4
Display Port
Connector
J2
SuperSpeed
J7
USB Type-B
Power
Connector Output Header
J9
Debug
Connector
J3
USB Type-C
Receptacle
J8
CCG 4 Daughter
Board Connector
LED1
(Green)
LED2
(Orange)
J5
USB 2.0
Mini-B Connector
J11
User LED
Connector
J1
DC Power
Supply
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J12
Power
Input
Header
16
CY4541 EZ-PD CCG4 EVK Hardware
Table 4-2 shows a detailed description of the connectors and jumper settings.
Table 4-2. CCG EVK Base Board Jumper/Connector Description
Jumper/Connector
Description
Default
J1
DC power jack to connect the DC power adapter to the CCG EVK base board
NA
J2
SuperSpeed USB Type-B connector (receptacle)
NA
J3
USB Type-C connector (receptacle)
NA
J4
DisplayPort connector
NA
J7
Header for voltage measurement when CCG4 acts as power consumer or power output header
NA
CY4541 CCG4 daughter card interface connector
J8
Pin 1: USB_P_PWR (USB Provider power)
Pin 2: USB_P_PWR (USB Provider power)
Pin 3: Type-C VBUS
Pin 4: Type-C VBUS
Pin 5: USB_C_PWR (USB Consumer power)
Pin 6: USB_C_PWR (USB Consumer power)
Pin 7: GND
Pin 8: GND
Pin 9: SW0/I2C_SCL
Pin 10: VBUS_DISCHRG
Pin 11: SW1/I2C_SDA
Pin 12: CCG_SWD_IO
Pin 13: OCP (Over Current Protection)
Pin 14: CCG_SWD_CLK
Pin 15: AC Adapter Det1
Pin 16: CCG_XRES
Pin 17: VSEL2 (Voltage Selection line 2)
Pin 18: I2C_ADDR0
Pin 19: V5P0
Pin 20: VCONN_MON
Pin 21: CC1
Pin 22: CC2
Pin 23: V3P3
Pin 24: VBUS_P_CTRL (VBUS Provider Control)
Pin 25: RXD
Pin 26: VBUS_MON_GPIO (VBUS Monitoring
I/O)
Pin 27: TXD
Pin 28: I2C_INT_EC
Pin 29: MUX_DP_AUXN
Pin 30: VBUS_C_CTRL (VBUS Consumer
Control)
Pin 31: MUX_DP_AUXP
Pin 32: OVP_TRIP (Overvoltage Detection
Signal)
Pin 33: SBU2
Pin 34: I2C_SDA_EC
Pin 35: SBU1
Pin 36: HOTPLUG_DET
Pin 37: I2C_SCL_EC
Pin 38 : Test Point (TP12, USBDP signal)
Pin 39: VSEL1 (Voltage selection line 1)
Pin 40: Test Point (TP11, USBDM signal)
NA
Debug connector
J9
Pin 1: Type-C VBUS
Pin 2: Type-C VBUS
Pin 3: CCG_SWD_IO
Pin 4: CCG_XRES
Pin 5: CC1
Pin 6: CC2
Pin 7: I2C_SCL_EC
Pin 8: I2C_SDA_EC
Pin 9: I2C_INT_EC
Pin 10: HOTPLG_DET
Pin 11: SW0/I2C_SCL
Pin 12: SW1/I2C_SDA
Pin 13: SW2
Pin 14: OCP (Over Current Protection)
Pin 15: CCG_SWD_CLK
Pin 16: OVP_TRIP
Pin 17: VSEL1 (Voltage Selection line 1)
Pin 18: VSEL2 (Voltage Selection line 2)
Pin 19: VBUS_P_CTRL (VBUS Provider Control)
Pin 20: VBUS_DISCHRG
Pin 21: VBUS_MON_GPIO
Pin 22: VBUS_C_CTRL (VBUS Consumer
Control)
Pin 23: GND
Pin 24: GND
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NA
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CY4541 EZ-PD CCG4 EVK Hardware
Jumper/Connector
Description
Default
J11
User LED header - connects CCG4 SWD_IO pin to LED2 when shorted.
Pin 1: SWD_IO
Pin 2: LED
Short pin 1
and pin2
J12
Header for voltage measurement when CCG4 acts as power provider or power input header.
NA
J5
USB 2.0 Mini-B connector (receptacle)
NA
4.4 CY4541 CCG4 Daughter Card
The CY4541 CCG4 daughter card is an evaluation board with a CCG4 controller (CYPD4225-40LQXIT) and a USB-Serial Bridge
Controller (CY7C65215) to provide a USB interface for debugging. The CY4541 CCG4 daughter card must be assembled with
the CCG EVK base boards. This complete assembly setup supports Type-C host applications such as PCs.
PD-enabled USB products (such as a PC with a Type-C port) operate as a power provider and a power consumer. The USB PD
specification refers to such USB Type-C ports as Dual Role Ports (DRPs).
4.4.1 Block Diagram
Figure 11 shows the CY4541 CCG4 daughter card block diagram.
Figure 11. Block Diagram of CY4541 CCG4 Daughter Card
Power
Provider
Control
Circuitry
USB Mini-B
Receptacle (J1)
VBUS_P_CTRL_P1
DP/DM
VBUS
Power
Consumer
Control
Circuitry
VBUS_C_CTRL_P1
I2C
USB-Serial
(U3)
2
EZ-PD™ CCG4
(U9)
2
2
2
CC_P1 to Type-C Port1
2
AUX_P2 to SBU MUX 2
CC_P2 to Type-C Port 2
AUX_P1 to SBU MUX1
I2C_INTR
VBUS_C_CTRL_P2
Power
Consumer
Control
Circuitry
VBUS to
Type- C Port1
VBUS_P_CTRL_P2
VBUS to
Type-C Port 2
Power
Provider
Control
Circuitry
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CY4541 EZ-PD CCG4 EVK Hardware
4.4.2 Features
Table 4-3 lists the CY4541 CCG4 daughter card features.
Table 4-3. CY4541 CCG4 daughter card Features
Feature
Description
CCG4 device
CYPD4225-40LQXIT
CCG4 package
40-QFN
Dual Type-C port support
Ability to act as power provider (source) and power consumer (sink)
USB PD/
Type-C
Supports the following PD capabilities (VSEL pins):
5 V up to 3 A
5 V up to 5 A
9 V up to 5 A
15 V up to 5 A
20 V up to 5 A
VBUS provider and consumer FET control for VBUS source or sink path
VBUS discharge control FET
VBUS Provider path and Consumer
path control
VBUS provider path and consumer path control FETs per Type-C port
VCONN overcurrent protection
OVP and OCP
VBUS overvoltage protection
VBUS overcurrent protection
Dual Alternate mode/Display support
Plug orientation, Detection and
Alternate modes
Three mux-select pins per Type-C port to select between SuperSpeed USB and 2-lane or 4lane DisplayPort
Hot Plug Detect (HPD) for DisplayPort Alternate Mode operation
SBU (Side Band Use) multiplexer support to select between Auxiliary lines and UART
TXD/RXD signals
USB/I2C Programming
USB Type-B Mini receptacle connected to USB-to-serial device, which programs the CCG4
controller using the EZ-PD Configuration Utility
SWD Programming
SWD pin debugging/programming using MiniProg3 device (not provided with the kit)
Power
5 V from DC power jack
5 V regulated from Type-C connector
5 V from USB Type-B mini connector
1.8 V/3.3 V/5 V From SWD programming header
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CY4541 EZ-PD CCG4 EVK Hardware
4.4.3 Connectors and Jumper Settings
Figure 12 shows the CY4541 CCG4 daughter card connectors and default jumper settings. Table 4-4 lists the jumpers and header
description and default settings.
Figure 12. CY4541 CCG4 Daughter Card Connectors
J4
SWD
Header
LED1
(Green)
J2
Port1
Daughter Card
Interface
Connector
J5
VDDD Voltage
selection
1-2: 3.3 V
2-3: 5 V
EZ-PD CCG4
J3
Port2
Daughter Card
Interface
Connector
J1
USB 2.0 Mini B
Receptacle
Table 4-4. CY4541 CCG4 daughter card Jumper Description and Default Settings
Jumper/Connector
J1
Description
USB 2.0 Mini-B connector (receptacle)
Default
NA
Type-C Port1 interface
Pin 1: USB_P_PWR_P1 (USB Provider
power)
Pin 2: USB_P_PWR_P1 (USB Provider power)
Pin 3: Type-C_VBUS_P1
Pin 4: Type-C_VBUS_P1
Pin 5: USB_C_PWR_P1 (USB Consumer
power)
Pin 6: USB_C_PWR_P1 (USB Consumer power)
J2
NA
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CY4541 EZ-PD CCG4 EVK Hardware
Jumper/Connector
Description
Pin 7: GND
Pin 8: GND
Pin 9: I2C_SCL
Pin 10: VBUS_DISCHRG_P1
Pin 11: I2C_SDA
Pin 12: SWD_IO
Pin 13: OCP_P1 (Over Current Protection)
Pin 14: SWD_CLK
Pin 15:P_PWR_P1_MON
Pin 16: XRES
Pin 17: VSEL2 _P1(Voltage Selection line 2)
Pin 18: I2C_ADDR_P1
Pin 19: V5P0_P1
Pin 20: No Connect
Pin 21: CC1_P1
Pin 22: CC2_P1
Pin 23: V3P3_P1
Pin 24: VBUS_P_CTRL_P1 (VBUS Provider Control)
Pin 25: RXD_P1
Pin 26: VBUS_MON_P1 (VBUS Monitoring I/O)
Pin 27: TXD_P1
Pin 28: I2C_INT_EC
Pin 29: DP_AUXN_P1
Pin 30: VBUS_C_CTRL_N_P1 (VBUS Consumer
Control)
Pin 31: DP_AUXP_P1
Pin 32: OVP_TRIP_P1 (Overvoltage Detection
Signal)
Pin 33: SBU2_P1
Pin 34: I2C_SDA_EC
Pin 35: SBU1_P1
Pin 36: HOTPLUG_DET_P1
Pin 37: I2C_SCL_EC
Pin 38 : USB2_DP
Pin 39: VSEL1 _P1(Voltage selection line 1)
Pin 40: USB2_DM
Default
Type-C Port2 Interface
Pin 1: USB_P_PWR_P2 (USB Provider
power)
Pin 2: USB_P_PWR_P2 (USB Provider power)
Pin 3: Type-C_VBUS_P2
Pin 4: Type-C_VBUS_P2
Pin 5: USB_C_PWR_P2 (USB Consumer
power)
Pin 6: USB_C_PWR_P2 (USB Consumer power)
Pin 7:GND
Pin 8:GND
Pin 9: I2C_SCL
Pin 10: VBUS_DISCHRG_P2
Pin 11: I2C_SDA
Pin 12: No Connect
Pin 13: OCP_P2 (Over Current Protection)
Pin 14: No Connect
Pin 15: P_PWR_P2_MON
Pin 16: No Connect
Pin 17: VSEL2 _P2(Voltage Selection line 2)
Pin 18: I2C_ADDR_P2
Pin 19: V5P0_P2
Pin 20: VCONN_MON
Pin 21: CC1_P2
Pin 22: CC2_P2
Pin 23: V3P3_P2
Pin 24: VBUS_P_CTRL_P2 (VBUS Provider Control)
J3
NA
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CY4541 EZ-PD CCG4 EVK Hardware
Jumper/Connector
Description
Pin 25: RXD_P2
Pin 26: VBUS_MON_P2 (VBUS Monitoring I/O)
Pin 27: TXD_P2
Pin 28: No Connect
Pin 29: DP_AUXN_P2
Pin 30: VBUS_C_CTRL_N_P2 (VBUS Consumer
Control)
Pin 31: DP_AUXP_P2
Pin 32: OVP_TRIP_P2 (Overvoltage
Pin 33: SBU2_P2
Pin 34: No Connect
Pin 35: SBU1_P2
Pin 36: HOTPLUG_DET_P2
Pin 37: No Connect
Pin 38 : SW1_P2
Pin 39: VSEL1 _P2(Voltage selection line 1)
Pin 40: SW0_P2
Default
SWD Programming header
Pin 1: VTARG
Pin 2: GND
J4
NA
Pin 3: XRES
Pin 4: SWD_CLK
Pin 5: SWD_IO
VDDD voltage selection for CCG4 device
1 and 2 short: 3.3 V
2 and 3 short: 5.0 V
J5
Short pin1 and
pin2
4.5 CCG EVK Base Board and CCG4 Daughter Card Revisions
Table 4-5 provides details about the latest revision of the CCG EVK Base Board and CCG4 Daughter Card
Table 4-5: Revision of CCG EVK Base Board and CCG4 Daughter Card
Board
Revision
CCG EVK Base Board
Rev 05
CCG4 Daughter Card
Rev 04
Schematic and BoM details for the latest revision of hardware are available in Appendix A. The complete set of
latest hardware files (Schematic, BoM & Layout) files are available under <Install Directory>\CY4541 CCG4
EVK\1.0\Hardware.
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CY4541 EZ-PD CCG4 EVK Hardware
Revision number of a given hardware can be identified on the PCB as shown in Figure 13.
Figure 13: Revision Number of CCG EVK Base Board
Note that hardware design files (Schematic, BoM & Layout) of the earlier revisions of the hardware are also available as part of
the kit installer. Refer to <Install Directory>\CY4541 CCG4 EVK\1.0\Hardware\README.txt to get more details.
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5. Programming the CCG4 Device
The CCG4 device in the CY4541 EZ-PD CCG4 EVK is preprogrammed with the latest cyacd* firmware binary image at the time
of manufacturing. However, a more recent cyacd* file for CCG4 is available on the CY4541 EZ-PD CCG4 EVK webpage as well
as in the CY4541 EZ-PD CCG4 EVK installer. The firmware version of the onboard CCG4 device can be verified by using the EZPD Configuration Utility as shown in Figure 17. If the onboard CCG4’s firmware version does not match the latest version on the
CY4541 EZ-PD CCG4 EVK webpage, follow the steps in this chapter to reprogram the CCG4 device. This firmware update is
required for successful kit operation. Device configuration parameters (such as vendor ID, Power Data Objects (PDOs),
DisplayPort mode parameters) can be updated using EZ-PD Configuration Utility. Refer to the EZ-PD Configuration Utility User
Manual for more details.
Note *: cyacd is the bootloader application and code data file format. The file consists of a header followed by lines of flash data.
Excluding the header, each line in the .cyacd file represents an entire row of flash data. The data is stored as ASCII data in Big
Endian format.
5.1 Programming CCG4 Device on the CY4541 CCG4 Daughter Card
Follow these steps to update the firmware running on the CCG4 device of the CY4541 CCG4 daughter card:
1.
If the kit installation is not performed yet or was not performed recently, install the latest version of the software by
downloading and installing the latest kit setup CY4541Setup.exe from www.cypress.com/CY4541.
2.
Ensure that the voltage selection jumper (J5) is set to 5 V (pins 2 and 3 of jumper J5 on the CY4541 CCG4 daughter card
are shorted).
3.
Connect the boards and cables (USB 2.0 USB 2.0 Type-A to Mini-B cable, DC power adapter, and wires between the
power input header (J12) on CCG EVK base board 1 and CCG EVK base board 2) as shown in Figure 14. Connect the
DC power adapter to CCG EVK base board 1.
Figure 14. Programming the CCG4 Device
DC power adapter connected to
CCG Base Board 1
J1 (USB 2.0 recepatcle) on
backside of CCG4 Daughter Card
USB
Type-A to mini B
Cable connected to J1 (USB 2.0
recepatcle) on CCG4 Daughter
Card
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Programming the CCG4 Device
4.
The EZ-PD Configuration Utility is a Microsoft Windows Application, which can be used to configure and program the
CCG4 device on the CY4541 CCG4 daughter card. After the kit installation, EZ-PD Configuration utility is available at the
following location:
<Install_Directory>/Cypress/ EZ-PD Configuration utility
Alternatively, download and install the EZ-PD Configuration Utility from the Cypress webpage.
5.
Open the EZ-PD Configuration Utility as shown in Figure 15. After the installation, the EZ-PD Configuration Utility is
available at the following location:
Start > All Programs > Cypress > EZ-PD Configuration Utility > EZ-PD Configuration Utility.exe
Figure 15. EZ-PD Configuration Utility
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Programming the CCG4 Device
6.
Select the Tools > Firmware Update menu option to update the firmware of the CCG4 device as shown in Figure 16.
Refer to the EZ-PD Configuration Utility User Manual for more details. To open this document, click Help > User Manual
in the EZ-PD Configuration Utility as shown in Figure 16.
Figure 16. Upgrading CCG4 Firmware
7.
The internal device flash contains two copies of the firmware, which can mutually update each other. These copies are
called FW1 and FW2, and are designed to be placed at different flash locations. If the CCG4 device is currently running
FW1, only FW2 can be updated and vice-versa. Specify both firmware binaries in the Firmware path 1 and Firmware
path 2 widgets. The EZ-PD Configuration Utility selects the appropriate firmware binary image based on the current
image running in CCG4. To update both FW1 and FW2 binary images, perform step 9 and step 10 twice. When Step 9
and 10 are executed the first time after connecting the EVK, the FW1 image is updated. When steps 9 and 10 are
repeated, the EZ-PD Configuration utility dynamically switches the firmware image to FW2 and, the FW2 image is
updated in the CCG4 device.
8.
Download the latest CY4541 firmware from the CY4541 EZ-PD CCG4 EVK webpage. The firmware binary images are
also available at the following location after the CY4541 EZ-PD CCG4 EVK installation.
<Install_Directory>\CY4541 CCG4 EVK\1.0\Firmware
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Programming the CCG4 Device
9.
Select NOTEBOOK from the “select target” list shown in Figure 17. Select the firmware binary image 1 (CYPD422540LQXI_notebook_one_x_y_z_bb*_0_0_0_nb.cyacd) by clicking Browse (…) in the Firmware path 1 widget. Select the
firmware binary image 2 (CYPD4225-40LQXI_notebook_two_x_y_z_bb*_0_0_0_nb.cyacd) by clicking Browse (…) in
the Firmware path 2 widget. Click Program.
Note*: Here, x_y_z_bb refers to the firmware version and build number.
Figure 17. Selection of DRP-NOTEBOOK from EZ-PD Configuration Utility
10. Press switch SW1 (XRES) on CY4541 CCG4 daughter card to reset the CCG4 device.
11. Firmware for the CCG4 device is provided in .cyacd format. Sample firmware binaries for each application are provided
on the CY4541 EZ-PD CCG4 EVK webpage. The firmware update over I2C will take few moments to complete. Progress
messages are displayed in the Messages window and a progress bar indicates the progress of the firmware update
process. The old and new firmware versions are displayed in the Messages window at the end of a successful firmware
update process.
12. The CCG4 device can also be programmed with a hex file using SWD header J4 on the CY4541 CCG4 daughter card.
MiniProg3 (not provided with the kit) is required to perform SWD programming. Refer to the Knowledge Base Article
96477 for more details.
Warning: Do not disconnect the EVK from the PC while the firmware update is in progress.
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6. Kit Operation
This chapter describes how to configure the CY4541 EZ-PD CCG4 EVK to demonstrate the operation and functionality of the
CCG4 as a DRP device. It demonstrates that each Type-C port of a DRP device can act as a power provider or a power consumer.
It also provides details about connecting a USB host (PC) to either a device (USB pen drive/display monitor) or a USB Type-C
power adapter through the CY4541 EZ-PD CCG4 EVK board.
This chapter provides details of the following demos:
a.
DRP and SuperSpeed USB demo – This demo shows the ability of CCG4 to control two Type-C ports simultaneously. In
this demo, both Type-C ports act as power providers.
b.
Dead Battery Charging demo – This demo shows the ability of CCG4 to consume power from a USB Type-C power adapter
when the external DC power supply is absent. This demonstrates a dead battery notebook, which can be powered by
connecting the USB Type-C power adapter to its Type-C port.
c.
DisplayPort Alternate Mode demo -- This demo shows the ability of CCG4 to transfer DisplayPort signals to a display monitor
over the Type-C interface.
Before starting with the demos, let us understand power supply system of the CY4541 EZ-PD CCG4 EVK in detail.
6.1 Power Supply Connections
A PC with two USB 3.0 ports and a DisplayPort, along with the CY4541 EZ-PD CCG4 EVK, is equivalent to a PD-enabled dual
Type-C port PC as shown in Figure 18. In a real Type-C notebook design, power from the power output header (J7) of the CCG
EVK base board acting as the USB Type-C power adapter is connected to a Battery Charger Circuit (BCC) of a USB 3.0
notebook/PC. On the CCG4 EVK, the DC power jack (J1) on the CCG EVK base board is provided for demonstration purposes
only since the internal supply from the Power Management IC (PMIC) is not available. A notebook power adapter (as shown in
Figure 18) would be connected to the “ORing” controller block which supplies power to the Battery Charger Circuit (BCC).
In a real system, the power input header (J12) of CCG EVK base board 2 would be connected to the output of the PMIC. Since
this tapping of power from the PMIC is not available in existing PCs, wires are directly connected between the power output and
power input headers of CCG EVK base boards to mimic the Type-C notebook design using CY4541 EZ-PD CCG4 EVK.
Power being provided to the CCG4 EVK would come from a PMIC in the Notebook, and the input source to that PMIC could either
be the notebook battery, a notebook power adapter or a USB Type-C power adapter. Hence, in a Notebook it is possible to connect
both the DC power adapter and the USB Type-C power adapter. However, in the case of the CY4541 EZ-PD™ CCG4 EVK, since
the internal power points to the Notebook are inaccessible, it is mandatory that power is not provided via the power jack J1 of
either of the CCG EVK base boards when the CY4541 EZ-PD™ CCG4 EVK is powered by a USB Type-C power adapter (as
shown in Figure 23 and Figure 24) as this can damage the EVK boards. This restriction is not due to a limitation on the CCG4
device, but only because of the inaccessibility of the internal power points inside a Notebook/PC.
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Kit Operation
Figure 18. Dual Type-C PC Design using CY4541 EZ-PD CCG4 EVK
The CY4541 CCG4 daughter card consists of both a power provider and a power consumer circuitry for each Type-C port. The
CCG4 device controls this circuitry and decides the source of the power for both CCG EVK base boards and the CY4541 CCG4
daughter card. The power input header on each CCG EVK base board can receive DC power directly. The power output header
on the CCG EVK base board can receive and source power directly when a USB Type-C power adapter is connected to Type-C
port 1 or 2. The CY4541 CCG4 daughter card receives power either from CCG EVK base board 1 or from CCG EVK base board
2 (whichever is higher).
In a CY4541 EZ-PD CCG4 EVK enabled dual Type-C PC design, the entire EVK can be powered using the following methods:
Scenario 1: A DC power adapter is connected to the DC power jack (J1) on CCG EVK base board 1 or CCG EVK base board 2
In this scenario, the CCG4 device turns on the power provider control circuitry and power is available on the power input headers.
Wires must be connected between the power input headers (J12) on both the CCG EVK base boards (shown by the dotted line
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Kit Operation
in Figure 18). Both the CCG EVK base boards and the CY4541 CCG4 daughter card are powered by the DC Power supply
connected to either CCG EVK base board 1 or CCG EVK base board 2.
Scenario 2: A USB Type-C power adapter is connected to Type-C port 1 or Type-C port 2
In this scenario, the CCG4 device turns on the power consumer control circuitry and power is available on the power output
headers. Wires must be connected between the power output header (J7) of CCG EVK base board 1 and power input header
(J12) of CCG EVK base board 2 when a USB Type-C power adapter is connected to Type-C port 1. If a USB Type-C power
adapter is connected to Type-C port 2, then the wires must be connected between the power output header of CCG EVK base
board 2 and the power input header of CCG EVK base board 1.
6.1.1 Valid Power Supply Connections
This section shows the four valid power supply connections between the power output and power input headers on the CCG EVK
base boards.
Case 1: This case refers to Scenario 1 when the DC power supply is connected to DC power jack (J1) of CCG EVK base board
1. Wires must be connected between the power input header (J12) of CCG EVK base board 1 and the power input header (J12)
of CCG EVK base board 2, as shown in Figure 19.
Figure 19. Valid Power Supply Connections for Case 1
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
DC IN
(J1)
CY4541 CCG4
Daughter Card
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
24V DC
Power
Adapter
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Kit Operation
Case 2: This case refers to Scenario 1 when a DC power supply is connected to DC power jack (J1) of CCG EVK base board 2.
Wires must be connected between the power input header (J12) of CCG EVK base board 1 and the power input header (J12) of
CCG EVK base board 2, as shown in Figure 20.
Figure 20: Valid Power Supply Connections for Case 2
24V DC
Power
Adapter
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Port 1
DC IN
(J1)
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
CY4541 CCG4
Daughter Card
Power
Input
Header
(J12)
CCG EVK Base Board 1
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
Case 3: This case refers to Scenario 2 when the USB Type-C power adapter is connected to Type-C port 1. Wires must be
connected between the power output header (J7) of CCG EVK base board 1 and the power input header (J12) of CCG EVK base
board 2 as shown in Figure 21.
Figure 21: Valid Power Supply Connections for Case 3
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Power
Adapter
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
CY4541 CCG4
Daughter Card
Power
Input
Header
(J12)
DC IN
(J1)
Power
Output
Header
(J7)
Optional Wire Connections
CCG EVK Base Board 1
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
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Kit Operation
Case 4: This case refers to Scenario 2 when a USB Type-C power adapter is connected to Type-C port 2. Wires must be connected
between the power input header (J12) of CCG EVK base board 1 and the power output header (J7) of CCG EVK base board 2,
as shown in Figure 22.
Figure 22. Valid Power Supply Connections for Case 4
Optional Wire Connections
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
CY4541 CCG4
Daughter Card
DC IN
(J1)
Type-C
Power
Adapter
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
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Kit Operation
6.1.2
Invalid Power Supply Connections
This section shows the two invalid power supply connections between the power output and power input headers on the CCG
EVK base boards.
Caution: Connecting the DC power adapter with the wire connections based on any of the invalid cases described in this section
will damage the EVK or its accessories.
Case 1: Figure 23 illustrates an invalid power supply connection as described below when:

A DC power adapter is connected to DC power jack (J1) of CCG EVK base board 1

Wires are connected between the power input header (J12) of CCG EVK base board 1 and the power output header (J7)
of CCG EVK base board 2
Figure 23. Invalid Power Supply Connections for Case 1
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
DC IN
(J1)
CY4541 CCG4
Daughter Card
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
24V DC
Power
Adapter
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Kit Operation
Case 2: Figure 24 illustrates an invalid power supply connection as described below:

A DC power adapter is connected to the DC power jack (J1) of CCG EVK base board 2

Wires are connected between the power output header (J7) of CCG EVK base board 1 and the power input header (J12)
of CCG EVK base board 2
Figure 24. Invalid Power Supply Connections for Case 2
24V DC
Power
Adapter
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
DC IN
(J1)
CY4541 CCG4
Daughter Card
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
.
6.1.3 Non Recommended Power Supply Connections with Custom Firmware
This section shows the three non-recommended power supply connections, if CY4541 EZ-PD CCG4 EVK is programmed with
custom firmware, which enables both power provider and power consumer path circuitry simultaneously. Default firmware in
CY4541 EZ-PD CCG4 EVK does not enable both provider and consumer paths at the same time, which allows the following power
supply connections with pre-programmed CY4541 EZ-PD CCG4 EVK.
Note: While modifying the firmware of CCG4 device, care should be taken to not enable the power provider and power consumer
path of CCG4 at the same time.
Case 1: Figure 25 illustrates non-recommended power supply connection as described below:

A USB Type-C power adapter is connected to Type-C port 1 or Type-C port 2 when a DC power adapter is connected to
DC power jack (J1) of the CCG EVK base board 1

Wires are connected between power input headers (J12) of CCG EVK base board 1 and CCG EVK base board 2
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Kit Operation
Figure 25. Non-Recommended Power Supply Connection for Case 1
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Power
Adapter
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
DC IN
(J1)
CY4541 CCG4
Daughter Card
Type-C
Power
Adapter
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
24V DC
Power
Adapter
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Kit Operation
Case 2: Figure 26 illustrates non-recommended power supply connection as described below:

A USB Type-C power adapter is connected to Type-C port 1 or Type-C port 2 when a DC power adapter is connected to
the DC power jack (J1) of CCG EVK base board 2

Wires are connected between the power input headers (J12) of CCG EVK base board 1 and CCG EVK base board 2
Figure 26. Non-Recommended Power Supply Connection for Case 2
24V DC
Power
Adapter
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Power
Adapter
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CCG EVK Base Board 1
DC IN
(J1)
CY4541 CCG4
Daughter Card
Type-C
Power
Adapter
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
Case 3: Figure 27 illustrates non-recommended power supply connection as described below:

A USB Type-C power adapter is connected to both Type-C port 1 and Type-C port 2

Wires are connected between the power input header (J12) of CCG EVK base board 1 and the power output header (J7)
of CCG EVK base board 2 as well as between the power output header (J7) of CCG EVK base board 1 and the power
input header (J12) of CCG EVK base board 2
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Kit Operation
Figure 27: Non-Recommended Power Supply Connection for Case 3
Power
Input
Header
(J12)
Power
Output
Header
(J7)
Type-C
Power
Adapter
Type-C
Port 1
DC IN
(J1)
Type-C
Port 2
EZ-PD™
CCG4
Power
Input
Header
(J12)
CY4541 CCG4
Daughter Card
CCG EVK Base Board 1
DC IN
(J1)
Type-C
Power
Adapter
Power
Output
Header
(J7)
CCG EVK Base Board 2
CY4541 EZ-PD CCG4 EVK
6.2 Dual Role Port (DRP) and SuperSpeed USB Demo
The DRP and SuperSpeed USB demo is a full end-to-end demo that demonstrates the following:

Type-C connectivity between the Downstream Facing Port (DFP)* (such as a USB host) and Upstream Facing Port (UFP)*
(such as a USB device - for example, a SuperSpeed USB pen drive).

The ability of CCG4 to switch the power role from provider to consumer and vice-versa (Dual Role Port device) on each
Type-C port
*Note that the DFP is a Type-C port, which by default is a USB host and power source. The UFP is by default a USB device
and power sink. DRP can switch its power role from source to sink.
6.2.1 Boards, Cables, and Accessories
The following items are needed to perform this demo:

A USB host device (for example, a PC with USB host controller and port)

CY4541 EZ-PD CCG4 EVK setup (CCG EVK base board and daughter card, refer to Section 4.3 and Section 4.4 for more
information)

Two SuperSpeed USB Type-A to Type-B cables

Two USB Type-C to Type-A adapters

USB Type-C power adapter (not provided with the kit; refer to the recommended hardware section)

Two USB pen drives (not provided with the kit)
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Kit Operation
6.2.2 Running the DRP SuperSpeed USB Demo
A PD-enabled Type-C PC (here, the USB host PC and CY4541 EZ-PD CCG4 EVK) operates as a power provider and a power
consumer on each Type-C port. The Type-C Specification calls this a DRP device. CCG4 has the ability to switch its power role
from provider to consumer and vice-versa.
CCG4 as Power Provider for both Type-C Ports:
1.
Use the CY4541 EZ-PD CCG4 EVK setup (assembled CCG EVK base board and CY4541 CCG4 daughter cards) as shown
in Figure 28.
2.
Connection details:

Verify that the User LED jumper (J11) is populated on CCG EVK base board 1 and the voltage selection jumper (J5)
on the CY4541 CCG4 daughter card is set to 3.3 V (in position 1-2). By default, the User LED jumper (J11) on CCG
EVK base board 2 is populated. This jumper (J11) on CCG EVK base board 2 is optional.

Ensure that the wires are connected between the power input headers (J12) of both CCG EVK base boards as shown
in Figure 28.

Connect the DC power adapter (provided with the kit) to the DC power jack (J1) of either of the CCG EVK base boards.

Verify that the setup is as shown in Figure 28. LED1 (Green) on the CY4541 CCG4 daughter card and both the CCG
EVK base boards glow to indicate that the kit is powered. Also, LED2 (Orange) on CCG EVK base board 1 blinks
continuously to indicate that CCG4 is powered and active.
Figure 28. Power Supply Connections
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Kit Operation
3.
Connect the boards and cables (USB 3.0 Type-A to Type-B Cables and USB Type-C to Type-A adapters) as shown in
Figure 29. Note that the USB Type-C to Type-A adapters (provided with the kit) and the color of the solder mask of both
CCG EVK base boards and the CY4541 CCG4 daughter card may vary from the image shown in Figure 29. Plug USB pen
drives (not provided with the kit) into each USB Type-C to Type-A adapter.
Figure 29. Setup of SuperSpeed USB Demo Using the CY4541 EZ-PD CCG4 EVK
4.
Observe that both the USB pen drives connected to the USB Type-C to Type-A adapters enumerate on the PC that is
plugged into the CY4541 EZ-PD CCG4 EVK. Verify the functionality by accessing (adding/deleting) files on the connected
USB pen drives through the PC. This demonstrates CCG4’s capability to control two Type-C interfaces simultaneously.
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Kit Operation
CCG4 as a DRP device on both Type-C ports and Dead Battery Charging demo:
A PC with two USB 3.0 ports and a DisplayPort along with the CY4541 EZ-PD CCG4 EVK is equivalent to a PD-enabled dual
Type-C port PC
1.
Connection details:

Remove the DC power adapter from the DC power jack (J1).

Remove the wires from the power input header (J12) of CCG EVK base board 1. Connect wires between the power output
header (J7) of CCG EVK base board 1 and the power input header J12 of CCG EVK base board 2. This connection provides
power from CCG EVK base board 1 to CCG EVK base board 2 when a USB Type-C power adapter is connected to CCG
EVK base board 1, as shown in Figure 30. Connect wires between the power output header J7 of CCG EVK base board 2
and the power input header J12 of CCG EVK base board 1, as shown in Figure 30. This wire connection provides power
from CCG EVK base board 2 to CCG EVK base board 1 when a USB Type-C power adapter is connected to CCG EVK
base board 2.

Make sure that a DC power adapter is not connected to J1 as this will damage the board in this power configuration.
Connecting a DC power adapter to Type-C port 1 or Type-C port 2 bypasses the regulator and supplies power directly to
the attached Type-C device.

Disconnect the USB pen drive from the USB Type-C to Type-A adapter connected to CCG EVK base board 1.
Figure 30. Setup of DRP and Dead Battery Charging Demo (Example 1)
USB
USB
USB 3.0 Type-A to Type-B
Cable connected to
CCG EVK Base Board 1
J7
J2
USB Type-C Power
Adapter
Connected to CCG EVK
Base Board 1
J12
Type-C to
Type-A Adapter USB Pen-drive
J3
J3
Type-C Port 1
Type-C Port 2
J12
J7
J2
USB 3.0 Type-A to Type-B
Cable connected to
CCG EVK Base Board 2
2.
Because a DC power adapter is not connected to the EVK, the onboard CCG4 is not powered. This emulates a dead battery
dual Type-C notebook. The CCG4 can be powered by connecting a USB Type-C power adapter to one of the EVK’s TypeC ports as shown in Figure 30. Connect a USB Type-C power adapter that supports a 14-V to 20-V power profile (not
provided with the kit; refer to the recommended hardware section) to Type-C port 1. Verify your setup as shown in Figure
30. Note that the connection of wires between the power output header (J7) of CCG EVK base board 1 and the power input
header (J12) of CCG EVK base board 2 is mandatory as current flows from CCG EVK base board 1 to CCG EVK base
board 2 when the USB Type-C power adapter is connected to Type-C port 1. Also, the connection of the USB 3.0 Type-A
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Kit Operation
to Type-B Cable to SuperSpeed USB Type-B connector (J2) of CCG EVK base board 2 is mandatory when the USB pen
drive is connected to Type-C port 2. LED1 (Green) on the CY4541 CCG4 daughter card and both the CCG EVK base
boards glow to indicate that the kit is powered. The LED2 (Orange) on CCG EVK base board 1 blinks continuously to
indicate that CCG4 is powered and active. When the CCG4 on the EVK is powered, it establishes a power contract with
the USB Type-C power adapter and starts consuming power. This can be verified by connecting a multimeter to the power
output header (J7) of the CCG EVK base board (where the USB Type-C power adapter is connected) to measure the output
voltage in the dead battery charging scenario. The output voltage at the power provider header (J7) is based on the power
negotiation between the CCG4 device and the USB Type-C power adapter. Thus, it will vary with respect to the attached
USB Type-C power adapter. This demonstrates that a CCG4-enabled dual Type-C notebook can be charged from the dead
battery condition.
3.
The CCG4 is now active and provides power to the UFP device (USB pen drive) connected to Type-C port 2. Observe the
enumeration of the SuperSpeed USB pen drive on the PC. In this scenario, Type-C port 1 acts as a power consumer and
Type-C port 2 acts as a power provider.
4.
Interchange the connection of the USB Type-C to Type-A adapter and the USB Type-C power adapter between Type-C
port 1 and Type-C port 2, as shown in Figure 31. Note that the connection of wires between the power input header (J12)
of CCG EVK base board 1 and the power output header (J7) of CCG EVK base board 2 is mandatory as current flows from
CCG EVK base board 2 to CCG EVK base board 1 when a USB Type-C power adapter is connected to Type-C port 2.
Also, the connection of USB 3.0 Type-A to Type-B Cable to SuperSpeed USB Type-B connector (J2) of CCG EVK base
board 1 is mandatory when the USB pen drive is connected to Type-C port 1.
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Kit Operation
Figure 31. Setup of DRP and Dead Battery Charging Demo (Example 2)
USB
USB
USB 3.0 Type-A to Type-B
Cable connected to
CCG EVK Base Board 1
J2
J7
J12
USB Type-C Power
Adapter
Connected to CCG EVK
Base Board 2
Type-C to
USB Pen-drive Type-A Adapter
J3
J3
Type-C Port 1
Type-C Port 2
J12
J7
J2
USB 3.0 Type-A to Type-B
Cable connected to
CCG EVK Base Board 2
5.
Repeat steps 2 and 3. In this scenario, Type-C port 1 acts as a power provider and Type-C port 2 acts as a power consumer.
This demonstrates that the CCG4 device can switch the power role of the ports from provider to consumer and vice-versa.
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Kit Operation
6.2.3 Common Problems and Troubleshooting
If the demo does not function, follow these guidelines to troubleshoot:
1.
Ensure that both the CCG EVK base boards and the CY4541 CCG4 daughter card are powered by verifying that LED1
(Green) on both the CCG EVK base boards and CY4541 CCG4 daughter card are ON.
2.
Ensure that LED2 (Orange) on CCG EVK base board 1 is blinking continuously. If LED2 is not blinking, CCG4 is not
active. Assert and release the reset button on the CY4541 CCG4 daughter card (SW1).
3.
Ensure that CY4541 CCG4 daughter card is connected to both CCG EVK base boards.
4.
If there is no voltage at jumper J7 (in the Dead Battery Charging demo), ensure that the connected USB Type-C power
adapter supports a 14-V to 20-V power profile.
6.3 DisplayPort Demo
The DisplayPort Alternate Mode demo is an end-to-end demo that demonstrates the following:

Type-C alternate mode support for display: Delivers the DisplayPort video from the host (in this case, a PC) to a display
monitor.

Dual Type-C alternate mode support for display: Delivers the DisplayPort video from the host (in this case, a PC) to
display monitors connected to both Type-C port 1 and Type-C port 2.
6.3.1 Boards, Cables, and Accessories
The following items are needed to perform this demo:

One DisplayPort video source (for example, a PC) with a DisplayPort output connector and DisplayPort Splitter board
(not provided with the kit) or two DisplayPort video sources (two PCs with DisplayPort outputs or one PC with two
DisplayPort outputs)

Two DisplayPort monitors

CY4541 EZ-PD CCG4 EVK (CCG EVK base board + CY4541 CCG4 daughter card, refer to Section 4.3 and Section 4.4
for more information)

A DisplayPort cable that connects the CY4541 EZ-PD CCG4 EVK to the PC. If the PC has a Mini DisplayPort plug, use
the Mini DisplayPort to DisplayPort cable (DisplayPort cables are not provided with the kit. See List of Recommended
Hardware section)

Type-C to DisplayPort, Type-C to HDMI, Type-C to VGA or Type-C to DVI dongle (not provided with the kit. See List of
Recommended Hardware section)
6.3.2 Running the Single DisplayPort Demo
1.
Use the default jumper settings shown in Figure 28 to configure the CY4541 EZ-PD CCG4 EVK.
2.
Connection details:

Remove wires from the power output header (J7) on CCG EVK base board 1 and CCG EVK base board 2. Connect
wires between the power input headers (J12) of both the CCG EVK base boards as shown in Figure 32. Note that this is
the same setup as used in the DRP and SuperSpeed USB demo shown in Figure 28.

Connect the DC power adapter (provided with the kit) to the DC power jack (J1) of either of the CCG EVK base boards.
LED1 (Green) on the CY4541 CCG4 daughter card, and both the CCG EVK base boards glow to indicate that the board
is powered. Also, LED2 (Orange) on the CCG EVK base board 1 blinks continuously to indicate that CCG4 is powered
and active.
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Kit Operation
3.
Connect the boards, cables, and dongles as shown in Figure 32. Ensure that the monitor supports a DisplayPort, HDMI,
VGA, or DVA interface.
Figure 32. Setup of the DisplayPort Demo
USB 3.0 Type-A to Type-B
Cable connected to
CCG EVK Base Board 1
J2
J3
J3
Type-C Port 1
USB
DP
J4
Type-C
to DP
Dongle
Display
Port
Cable
Type-C Port 2
DC Power Adapter
connected to
CCG EVK Base Board 1
DisplayPort cable connected
to CCG EVK Base Board 2
4.
Ensure that the “Extended Display” feature is enabled in the USB host PC. For Windows users, this feature can be enabled
by clicking Extended Display, available at “Control Panel\All Control Panel Items\Display\Connect to a Projector” window.
For Linux or Mac users, this feature can be enabled by checking the Mirror image option, available at “System Preferences
(or Settings)\Display”.
5.
Observe that the DisplayPort video is transmitted from the host (PC) to the display monitor through Type-C port 2. This
demonstrates the CCG4’s capability to control the transfer of DisplayPort data over the Type-C interface.
6.
SuperSpeed USB data transfer can be performed simultaneously by connecting USB Type-C to Type-A adapter and USB
pen-drive to Type-C port 1 as shown in Figure 32. Also, the connection of USB 3.0 Type-A to Type-B Cable to the
SuperSpeed USB Type-B connector (J2) of CCG EVK base board 1 is mandatory when the USB pen drive is connected
to Type-C port 1.
6.3.3 Running the Dual DisplayPort Demo
In this demo, CCG4 delivers a DisplayPort video from the host (PC) to display monitors connected to Type-C port 1 and Type-C
port 2 using a Display Splitter board (not provided with the kit; refer to the List of Recommended Hardware section). If a Display
Splitter board is not available, then the Dual DisplayPort demo can be performed by connecting two PCs having DisplayPort
outputs, as shown in Figure 34. In this case, the DisplayPort output of PC 1 is connected to the DisplayPort connector of CCG
EVK base board 1 and the DisplayPort output of PC 2 is connected to the DisplayPort connector of CCG EVK base board 2.
1.
Use the default jumper settings shown in Figure 28 to configure the CY4541 EZ-PD CCG4 EVK.
2.
Connection details:

Remove wires from the power output header (J7) on CCG EVK base board 1 and CCG EVK base board 2. Connect
wires between the power input headers (J12) of both the CCG EVK base boards as shown in Figure 33. Note that this is
the same setup as used in the DRP and SuperSpeed USB demo shown in Figure 28.

Connect the DC power adapter (provided with the kit) to the DC power jack (J1) of either of the CCG EVK base boards.
LED1 (Green) on the CY4541 CCG4 daughter card and on both the CCG EVK base boards glow to indicate that the
board is powered. Also, LED2 (Orange) on the CCG EVK base board, connected to Type-C port 1 of the CY4541 CCG4
daughter card, blinks continuously.
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Kit Operation
3.
Connect the boards, cables, and dongles as shown in Figure 33 if a Display Splitter board is available. Otherwise, connect
the boards to two PCs having DisplayPort outputs as shown in Figure 34. Ensure that the monitor used supports a
DisplayPort, HDMI, VGA, or DVA interface.
Figure 33. Setup of the Dual DisplayPort Demo using a CY4541 EZ-PD CCG4 EVK and a Display Splitter Board
DisplayPort
DisplayPort to
DisplayPort
Cable
DisplayPort to
DisplayPort
Cable
Display Splitter
DisplayPort to
Display Port
Cable
J4
DisplayPort
J3
Cable Type-C
J3
Type-C
to DP
Dongle
to DP
Dongle
DisplayPort
Cable
J4
DC Power Adapter
(Connected to CCG
EVK Base Board 1)
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Kit Operation
Figure 34. Setup of a Dual DisplayPort Demo using two PCs with DP output
DisplayPort
DP
DP
DisplayPort to
DisplayPort Cable
DisplayPort to
J3
DisplayPort
Type-C
Cable
DisplayPort
DP
DisplayPort to
DisplayPort Cable
J4
DisplayPort to
DisplayPort
Type-C
Cable
J3
to DP
Dongle
to DP
Dongle
Type-C Port 1
Type-C Port 2
J4
DC Power Adapter
(Connected to CCG
EVK Base Board 1)
4.
In the setup shown in Figure 33, the Display Splitter transfers the DisplayPort video from the host (PC) to the display
monitors connected at Type-C port 1 and Type-C port 2 using Type-C to DP adapters. In the setup shown in Figure 34, this
demonstrates CCG4’s capability to control two DisplayPorts simultaneously.
6.3.4 Common Problems and Troubleshooting
If the demo does not function, follow these guidelines to troubleshoot.
1.
Ensure that both CCG EVK base boards and the CY4541 CCG4 daughter card are powered by verifying that LED1 (Green)
on all of the boards are ON.
2.
Ensure that LED2 (Orange) of CCG EVK base board 1 is blinking continuously. If LED2 is not blinking, CCG4 is not active.
Assert and release the reset button on the CY4541 CCG4 daughter card (SW1).
3.
Ensure that the boards are powered before connecting the DisplayPort cables.
4.
Ensure that the CY4541 CCG4 daughter card is connected to both the CCG EVK base boards.
5.
Ensure that the “Extended Display” is enabled in the USB host PC.
6.
If the PC video is not displayed on the monitor, assert and release the reset button on the CY4541 CCG4 daughter card
(SW1).
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Appendix A: Terminology
This guide assumes that the user of the CCG4 board is familiar with the fundamentals of Type-C connectivity and the USB Power
Delivery protocol. A brief description of Type-C terms is provided here for reference.

Alternate Modes: A feature of a USB Type-C system where one or both of the SuperSpeed lanes may be repurposed for
use with a different serial protocol, such as a DisplayPort, eSATA, or Thunderbolt.

Client: A USB peripheral such as a hub, docking station, or monitor.

Configuration channel (CC): A USB Type-C bus wire used to transmit protocol signals. This is a half-duplex
300-kHz signal.

Consumer: A Type-C port that sinks power from VBUS.

DisplayPort: A digital display interface standard developed by the Video Electronics Standards Association. It is used
primarily to connect a video source to a display such as a computer monitor.

Downstream facing port (DFP): A USB Type-C port on a host or a hub to which devices are connected and a default
power source.

Dp, Dn: USB Type-C bus wires used to transmit and receive USB 2.0 data.

Dual-role port: A USB Type-C port that can operate as either a DFP or a UFP, and either as power provider or power
consumer.

Electronically Marked Cable Assembly (EMCA): A USB cable that includes an IC that reports cable characteristics (such
as current rating) to the Type-C ports.
Figure 35: USB Type-C Plug and receptacle
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Appendix A: Terminology

Host: A USB host system such as a PC.

Provider: A Type-C port that sources power over VBUS.

Sideband use (SBU): A USB Type-C bus wire used for non-USB control signals, such as DisplayPort control signals.

Type-C Transceiver: A transmitter/receiver that communicates over the CC.

TX1p, TX1n, RX1p, RX1n, TX2p, TX2n, RX2p, and RX2n: USB Type-C bus wires used to transmit and receive
SuperSpeed USB and PCIe or DisplayPort data.

Upstream facing port (UFP): A USB Type-C port on a device or a hub that connects to a host or the DFP of a hub and a
default power sink.

USB Power Delivery (USB PD, PD): A new USB standard that increases power delivery over USB from 7.5 W to 100 W.

USB Type-C (Type-C): A new standard with a slimmer USB connector and a reversible cable, capable of sourcing up to
100 W of power and supporting Alternate Modes.

VBUS: A USB Type-C bus wire used for power; initially 5 V, but increased up to 20 V on USB PD systems.

VCONN: A USB Type-C bus wire used to power the IC in the EMCA.
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Appendix B: Schematic and Bill Of Materials
B.1
CY4541 CCG4 Base Board Schematic ( Rev5* CCG EVK Base board)
Note*: Rev5 denotes the revision number of a CCG EVK base board PCB as shown in Figure 13.
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Appendix B: Schematic and Bill Of Materials
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Appendix B: Schematic and Bill Of Materials
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Appendix B: Schematic and Bill Of Materials
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Appendix B: Schematic and Bill Of Materials
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53
Appendix B: Schematic and Bill Of Materials
B.2
CY4541 CCG4 Daughter Card Schematic (Rev 4* CCG4 Daughter Card)
Note*: Rev4 denotes the revision number of a CCG4 daughter card PCB as shown in Figure 13.
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Appendix B: Schematic and Bill Of Materials
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Appendix B: Schematic and Bill Of Materials
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Appendix B: Schematic and Bill Of Materials
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57
Appendix B: Schematic and Bill Of Materials
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58
Appendix B: Schematic and Bill Of Materials
B.3
Type-C to Type-A Adapter Schematic
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Appendix B: Schematic and Bill Of Materials
B.4
Bill of Materials
B.4.1
C C G E V K B a s e B o a r d B O M ( R e v5 C C G E V K B a s e B o a r d )
Item
Qty
Reference
Value
Description
Manufacturer
Mfr Part
Number
1
1
N/A
60060271-01
PCB,3.18X3.71" CAF resistant High Tg
ENIG finish,6 layer, Color = BLUE, Silk =
WHITE.
Cypress
Approved
Manufacturer
600-60271-01
2
2
C25,C26
0.01uF
CAP CER 10000PF 25V 10% X7R 0402
AVX
04023C103KA
T2A
3
14
C27,C28,C29,C31,C3
4,C42,C44,C46,C54,C
63,C64,C65,C70,C71
0.1uF
CAP CER 0.1UF 10V 10% X7R 0402
TDK Corporation
C1005X7R1A1
04K050BB
4
4
C36,C37,C38,C39
0.22uF
CAP CER 0.22UF 16V X7R 0402
Yageo
CC0402KRX7
R7BB224
5
3
C14,C50,C59
10uF
CAP CER 10UF 50V X7R 1210
6
3
C33,C45,C51
1uF
CAP CER 1UF 10V X5R 0402
7
2
C61,C72
1uF
CAP CER 1UF 35V X7R 0603
TDK Corporation
8
1
C35
2.2uF
CAP CER 2.2UF 25V 10% X5R 0603
TDK Corporation
9
3
C32,C40,C74
2200pF
CAP CER 2200PF 2KV 10% X7R 1808
JOHANSON
10
3
C8,C47,C48
22uF
CAP CER 22UF 10V X5R 0805
Murata
Electronics North
America
11
3
C12,C41,C43
4.7uF
CAP CER 4.7UF 10V 20% X5R 0402
TDK Corporation
12
2
C49,C62
0.1uF
CAP CER 0.1UF 50V 10% JB 0603
TDK Corporation
13
1
C30
4.7uF
CAP CER 4.7UF 50V X7R 1210
Murata
Electronics North
America
14
2
C116,C118
0.1uF
CAP CER 0.1UF 50V 10% X5R 0402
TDK
15
1
C120
0.1uF
CAP CER 0.1UF 25V 10% X7R 0603
Murata
16
1
C121
0.47uF
CAP CER 0.47UF 50V 10% X7R 0603
TDK
17
1
C117
1uF
CAP CER 1UF 50V 10% X5R 0603
TDK Corporation
18
1
C141
270pF
Capacitor, 270pF, 50V, 5%, NPO, 0402
Murata
19
2
C119,C123
330uF
CAP ALUM 330UF 50V 20% SMD
Panasonic
20
1
C140
470pF
Capacitor, 470pF, 50V, 10%, X7R, 0603
Murata
21
1
C122
8.2nF
CAP CER 8200PF 50V 10% X7R 0402
Kemet
22
3
D4,D6,D9
PMEG305
0BEP,115
DIODE SCHOTTKY 30V 5A SOD128
23
1
D8
1N4148W
FL-G3-08
DIODE GP 75V 150MA SOD123FL
24
1
D10
SMBJ24ATR
TVS DIODE 24VWM 50VC DO214AA
25
6
D11,D12,D13,D14,D1
6,D17
ESD105B
102EL
TVS DIODE 5.5VWM 14VC TSLP2-2
Infineon
Technologies
ESD105B102E
LE6327XTMA
1
26
1
D15
SMBJ24C
A-E3/52
TVS DIODE 24VWM 38.9VC SMB
Vishay
Semiconductor
Diodes Division
SMBJ24CAE3/52
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
Murata
Electronics North
America
Murata
Electronics North
America
NXP
Semiconductors
Vishay
Semiconductor
Diodes Division
STMicroelectroni
cs
GRM32ER71H
106KA12L
GRM155R61A
105KE15D
C1608X7R1V1
05K080AC
C1608X5R1E2
25K080AB
202R29W222
KV4E
GRM219R61A
226MEA0D
C1005X5R1A4
75M050BC
C1608JB1H10
4K080AA
GRJ32ER71H
475KE11L
C1005X5R1H1
04K050BB
GRM188R71E
104KA01D
C1608X7R1H4
74K080AC
C1608X5R1H1
05K080AB
GRM1555C1H
271JA01D
EEEFT1H331AP
GRM188R71H
471KA01D
C0402C822K5
RACTU
PMEG3050BE
P,115
1N4148WFLG3-08
SMBJ24A-TR
60
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
MMSZ470
2T1G
MBR0540
T1G
MMSD701
T1G
69410630
1002
UEB1112
C-2AK14H
DX07S02
4JJ2R130
0
Description
On
Semiconductor
On
Semiconductor
On
Semiconductor
Wurth
electronics
Mfr Part
Number
MMSZ4702T1
G
27
1
D19
28
1
D20
29
1
D21
30
1
J1
31
1
J2
32
1
J3
33
1
J4
47272000
1
34
1
J5
54819051
9
35
1
J7
1935161
36
1
J8
37
1
J9
38
1
J11
39
1
J12
40
1
L1
1uH
FIXED IND 1UH 1.8A 48 MOHM SMD
41
1
L3
10uH
FIXED IND 10UH 9A 25.5 MOHM SMD
Bourns Inc.
42
2
L4,L5
220Ohm
@100MHz
FERRITE CHIP 220 OHM 2A 0603
TDK Corporation
43
1
L6
4.7uH
FIXED IND 4.7UH 2A 72 MOHM SMD
Bourns Inc.
44
1
LED1
GREEN
LED GREEN CLEAR 0603 SMD
Lite-On Inc.
45
1
LED2
ORANGE
LED ORANGE CLEAR 0603 SMD
Lite-On Inc.
46
2
Q3,Q4
MOSFET 2N-CH 60V 0.23A SOT-363
Diodes
Incorporated
SRP1245A100M
MPZ1608S221
A
SRN50204R7M
LTSTC190GKT
LTSTC190KFKT
2N7002DW-7F
47
2
Q1,Q2
Transistor, 2N7002, N-Channel MOSFET, 60V, 115mA, SOT-23
ON Semi
2N7002LT1G
48
1
Q5
TRANS NPN 40V 0.2A SOT23
ON Semi
49
1
Q6
MOSFET N-CH 40V 13A SO-8FL
ON Semi
50
1
Q7
MOSFET N-CH 60V 8A 8-WDFN
ON Semi
51
4
R111,R124,R166,R16
8
0E
RES SMD 0.0OHM JUMPER 1/10W 0603
Panasonic
Electronic
Components
ERJ3GEY0R00V
52
7
0E
RES 0.0 OHM 1/16W JUMP 0402 SMD
Vishay Dale
CRCW040200
00Z0ED
53
13
100K
RES SMD 100K OHM 5% 1/10W 0402
Panasonic
Electronic
Components
ERJ2GEJ104X
R9,R22,R25,R61,R73,
R77,R162
R30,R31,R32,R33,R3
4,R35,R41,R47,R60,R
64,R66,R67,R81
SFH11PBPCD20-STBK
SBH11PBPCD12-STBK
9611026404-AR
OSTTC02
0162
2N7002D
W-7-F
2N7002LT
1G
MMBT390
4LT1
NTMFS58
34NL
NTTFS58
26NL
Diode, Zener, 15V, 0.5W, SOD123
Manufacturer
DIODE SCHOTTKY 40V 0.5A SOD123
Diode, Shottky, 70V, 0.2A, SOD123
CONN JACK POWER R/A .100"PIN PCB
MBR0540T1G
MMSD701T1G
694106301002
Connector Receptacle USB TypeB 3.0,
Super Speed 9 Position Through Hole,
Right Angle, Horizontal
FOXCONN
UEB1112C2AK1-4H
USB TYP C TP MNT DL RW SMT
RECEP
JAE Electronics
DX07S024JJ2
R1300
Molex
472720001
Molex, LLC
548190519
Phoenix Contact
1935161
Connector Header 40 Position 0.100"
(2.54mm) Gold Through Hole
Sullins
Connector
Solutions
SFH11-PBPCD20-ST-BK
CONN HEADER VERT 24POS GOLD
Sullins
Connector
Solutions
SBH11-PBPCD12-ST-BK
CONN HEADER VERT SGL 2POS GOLD
3M
961102-6404AR
TERMINAL BLOCK 5MM VERT 2POS
PCB
On Shore
Technology Inc.
Murata
Electronics North
America
Connector Receptacle DisplayPort 20
Position Surface Mount, Right Angle,
Horizontal
Connector Receptacle USB - mini B 2.0
OTG 5 Position Through Hole, Right
Angle, Horizontal
TERM BLOCK PCB 2POS 5.0MM
GREEN
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
OSTTC020162
LQM32PN1R0
MG0L
MMBT3904LT
1G
NTMFS5834N
LT1G
NTTFS5826NL
TAG
61
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
Description
Manufacturer
54
1
R74
10K
RES 10K OHM 1/16W 1% 0402
Samsung
ElectroMechanics
America, Inc
55
1
R58
16K
RES SMD 16K OHM 1% 1/16W 0402
Yageo
56
1
R56
1K
RES SMD 1K OHM 1% 1/10W 0402
57
1
R57
1K
RES SMD 1K OHM 5% 1/2W 0805
58
2
R46,R51
1M
RES SMD 1M OHM 1% 1/10W 0603
Yageo
59
2
R36,R37
2K
RES SMD 2K OHM 5% 1/16W 0402
Yageo
60
1
R70
30K
RES SMD 30K OHM 1% 1/16W 0402
Yageo
61
1
R7
330E
RES SMD 330 OHM 5% 1/10W 0603
Yageo
62
2
R38,R40
4.7K
RES SMD 4.7K OHM 5% 1/16W 0402
Yageo
63
1
R53
4.99K
RES SMD 4.99K OHM 1% 1/10W 0402
Panasonic
Electronic
Components
64
1
R59
5.1K
RES SMD 5.1K OHM 1% 1/16W 0402
Yageo
65
1
R29
1.13K
RES SMD 1.13K OHM 1% 1/16W 0402
66
1
R28
1.5K
RES SMD 1.5K OHM 1% 1/10W 0402
67
1
R169
16.5K
RES SMD 16.5K OHM 1% 1/10W 0603
68
1
R27
2.67K
RES SMD 2.67K OHM 1% 1/16W 0402
Yageo
69
1
R24
30E
RES SMD 30 OHM 1% 1/16W 0402
Yageo
70
1
R26
5.49K
RES SMD 5.49K OHM 1% 1/16W 0402
Yageo
71
1
R23
60.4E
RES SMD 60.4 OHM 1% 1/16W 0402
Yageo
72
1
R176
100E
RES SMD 100 OHM 1% 1/10W 0603
Panasonic
73
5
R109,R113,R118,R12
5,R170
10K
RES SMD 10K OHM 1% 1/10W 0603
Panasonic
74
1
R112
14.3K
RES SMD 14.3K OHM 1% 1/10W 0603
Panasonic
Yageo
Panasonic
Electronic
Components
Panasonic
Electronic
Components
Stackpole
Electronics Inc.
Panasonic
Electronic
Components
Stackpole
Electronics Inc.
75
1
R115
100K
100k Ohm ±1% 0.1W, 1/10W Surface
Mount Resistor Thick Film ±100ppm/°C
0603
76
1
R164
15K
RES SMD 15K OHM 5% 1/10W 0603
Panasonic
77
1
R123
16.9K
RES SMD 16.9K OHM 1% 1/10W 0603
Panasonic
78
2
R165,R182
1K
RES SMD 1K OHM 1% 1/10W 0603
Panasonic
Electronic
Components
79
1
R179
20E
RES SMD 20 OHM 5% 1/10W 0603
Panasonic
80
3
R129,R167,R174
20K
RES SMD 20K OHM 1% 1/10W 0603
Panasonic
81
1
R108
300E
RES SMD 300 OHM 5% 1/10W 0603
Panasonic
82
1
R110
5.1E
RES SMD 5.1 OHM 5% 1/10W 0603
Vishay
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
Mfr Part
Number
RC1005F103C
S
RC0402FR0716KL
ERJ2RKF1001X
ERJP06J102V
RC0603FR071ML
RC0402JR072KL
RC0402FR0730KL
RC0603JR07330RL
RC0402JR074K7L
ERJ2RKF4991X
RC0402FR075K1L
RMCF0402FT
1K13
ERJ2RKF1501X
RMCF0603FT
16K5
RC0402FR072K67L
RC0402FR0730RL
RC0402FR075K49L
RC0402FR0760R4L
ERJ3EKF1000V
ERJ3EKF1002V
ERJ3EKF1432V
RC0603FR07100KL
ERJ3GEYJ153V
ERJ3EKF1692V
ERJ3EKF1001V
ERJ3GEYJ200V
ERJ3EKF2002V
ERJ3GEYJ301V
CRCW06035R
10JNEA
62
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
Description
Manufacturer
Mfr Part
Number
83
1
R172
5.1K
RES SMD 5.1K OHM 1% 1/10W 0603
Panasonic
Electronic
Components
ERJ3EKF5101V
84
1
R127
619E
RES SMD 619 OHM 1% 1/10W 0603
Panasonic
ERJ3EKF6190V
85
1
SW1
EVQPE105K
SWITCH TACTILE SPST-NO 0.05A 12V
86
1
U2
TPS61253
IC REG BOOST 5V 3.3A SYNC 9DSBGA
87
1
U3
NCP1034
IC, PWM Buck Controller, 100V,
NCP1034, SOIC16
88
1
U4
CD74HC2
38PWR
IC DECODER/DEMUX HS 3-8 16-TSSOP
89
1
U5
PS8740B
USB Type-C Redriving Switch for USB
Host / DisplayPort Source
90
1
U6
CY7C652
15
IC USB TO UART BRIDGE DUAL 32QFN
91
1
U7
92
1
U13
93
1
U14
94
1
U15
95
5
96
4
V3P3,V5P0,USB_P_P
WR,USB_C_PWR,TY
PE-C_VBUS
GND1,GND2,GND3,G
ND4
USBLC62P6
RT8299A
ZSP
L78L05AB
UTR
TVS DIODE 5.25VWM 17VC SOT666
IC REG BUCK ADJ 3A SYNC 8SOP
IC REG LDO 5V 0.1A SOT89-3
Panasonic
Electronic
Components
Texas
Instruments
On
Semiconductor
Texas
Instruments
Parade
Cypress
Semiconductor
Corp
STMicroelectroni
cs
Richtek USA Inc.
STMicroelectroni
cs
ON
Semiconductor
EVQ-PE105K
TPS61253YFF
R
NCP1034DR2
G
CD74HC238P
WR
PS8740B
CY7C6521532LTXI
USBLC6-2P6
RT8299AZSP
L78L05ABUTR
LM339DTBR2
G
LM339
IC COMPARATOR QUAD SGL 14TSSOP
RED
TEST POINT PC MINI .040"D RED
Keystone
Electronics
5000
BLACK
TEST POINT 43 HOLE 65 PLATED
BLACK
Keystone
Electronics
5001
MISC
compo
nents
97
4
Bumper
NA
BUMPER CYLIN 0.312" DIA BLK
3M
98
1
Type-C Clamping
Bracket
NA
Type-C Connector Bracket
GLOBAL
TECHNOLOGY
SERVICES
99
2
M2x5mm Screws
NA
100
1
Jumper Plug
NA
101
1
Label
NA
SCREW, Pan Head, machined screws,
M2 x 5mm
2.54MM JUMPER PLUG WITH TEST
POINT
LBL, PCA Identification Label, Vendor
Code, Datecode, Serial
Number(YYWWVVXXXX)
Wurth
Electronics Inc
SJ61A6
Type-C
Connector
Clamping
Bracket
609002115121
Cypress
Semiconductor
No load components
C1005X7R1A1
04K050BB
EEEFT1H331AP
PMEG3050BE
P,115
102
1
C52
0.1uF
CAP CER 0.1UF 10V 10% X7R 0402
TDK Corporation
103
1
C124
330uF
CAP ALUM 330UF 50V 20% SMD
Panasonic
104
1
D18
PMEG305
0BEP,115
DIODE SCHOTTKY 30V 5A SOD128
105
1
J6
302-S101
CONN HEADER VERT 10POS GOLD
106
1
J10
M209990445
SIL VERTICAL PC TAIL PIN HEADER
Harwin Inc.
M20-9990445
107
5
R39,R54,R55,R79,R8
0
0E
RES 0.0 OHM 1/16W JUMP 0402 SMD
Vishay Dale
CRCW040200
00Z0ED
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
NXP
Semiconductors
On Shore
Technology Inc.
302-S101
63
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
Description
Manufacturer
108
2
R75,R76
2K
RES SMD 2K OHM 5% 1/16W 0402
Yageo
109
8
R42,R43,R44,R45,R4
8,R49,R50,R52
4.7K
RES SMD 4.7K OHM 5% 1/16W 0402
Yageo
110
1
R65
10K
RES 10K OHM 1/16W 1% 0402
111
1
R68
100K
RES SMD 100K OHM 5% 1/10W 0402
112
1
R177
5.49K
RES SMD 5.49K OHM 1% 1/10W 0603
Panasonic
113
3
TP11,TP12,VCONN_
MON
YELLOW
TEST POINT 43 HOLE 65 PLATED
YELLOW
114
3
Vfb,V_SYS,DP_PWR
RED
TEST POINT PC MINI .040"D RED
Keystone
Electronics
Keystone
Electronics
B.4.2
Item
Samsung
ElectroMechanics
America, Inc
Panasonic
Electronic
Components
Mfr Part
Number
RC0402JR072KL
RC0402JR074K7L
RC1005F103C
S
ERJ2GEJ104X
ERJ3EKF5491V
5004
5000
CY4541 CCG4 Daughter Card BOM (Rev 4 CCG4 Daughter Card)
Qty
Reference
Value
Description
Manufacturer
Mfr Part
Number
1
1
N/A
60060271-01
PCB,3.18X3.71" CAF resistant High Tg
ENIG finish,6 layer, Color = BLUE, Silk =
WHITE.
Cypress
Approved
Manufacturer
600-60271-01
2
2
C25,C26
0.01uF
CAP CER 10000PF 25V 10% X7R 0402
AVX
04023C103KA
T2A
3
14
C27,C28,C29,C31,C34,
C42,C44,C46,C54,C63,
C64,C65,C70,C71
0.1uF
CAP CER 0.1UF 10V 10% X7R 0402
TDK Corporation
C1005X7R1A1
04K050BB
4
4
C36,C37,C38,C39
0.22uF
CAP CER 0.22UF 16V X7R 0402
Yageo
CC0402KRX7
R7BB224
5
3
C14,C50,C59
10uF
CAP CER 10UF 50V X7R 1210
6
3
C33,C45,C51
1uF
CAP CER 1UF 10V X5R 0402
7
2
C61,C72
1uF
CAP CER 1UF 35V X7R 0603
TDK Corporation
8
1
C35
2.2uF
CAP CER 2.2UF 25V 10% X5R 0603
TDK Corporation
9
3
C32,C40,C74
2200pF
CAP CER 2200PF 2KV 10% X7R 1808
JOHANSON
10
3
C8,C47,C48
22uF
CAP CER 22UF 10V X5R 0805
Murata
Electronics North
America
11
3
C12,C41,C43
4.7uF
CAP CER 4.7UF 10V 20% X5R 0402
TDK Corporation
12
2
C49,C62
0.1uF
CAP CER 0.1UF 50V 10% JB 0603
TDK Corporation
13
1
C30
4.7uF
CAP CER 4.7UF 50V X7R 1210
Murata
Electronics North
America
14
2
C116,C118
0.1uF
CAP CER 0.1UF 50V 10% X5R 0402
TDK
15
1
C120
0.1uF
CAP CER 0.1UF 25V 10% X7R 0603
Murata
16
1
C121
0.47uF
CAP CER 0.47UF 50V 10% X7R 0603
TDK
17
1
C117
1uF
CAP CER 1UF 50V 10% X5R 0603
TDK Corporation
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
Murata
Electronics North
America
Murata
Electronics North
America
GRM32ER71H
106KA12L
GRM155R61A
105KE15D
C1608X7R1V1
05K080AC
C1608X5R1E2
25K080AB
202R29W222
KV4E
GRM219R61A
226MEA0D
C1005X5R1A4
75M050BC
C1608JB1H10
4K080AA
GRJ32ER71H
475KE11L
C1005X5R1H1
04K050BB
GRM188R71E
104KA01D
C1608X7R1H4
74K080AC
C1608X5R1H1
05K080AB
64
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
Description
Manufacturer
18
1
C141
270pF
Capacitor, 270pF, 50V, 5%, NPO, 0402
Murata
19
2
C119,C123
330uF
CAP ALUM 330UF 50V 20% SMD
Panasonic
20
1
C140
470pF
Capacitor, 470pF, 50V, 10%, X7R, 0603
Murata
21
1
C122
8.2nF
CAP CER 8200PF 50V 10% X7R 0402
Kemet
22
3
D4,D6,D9
PMEG305
0BEP,115
DIODE SCHOTTKY 30V 5A SOD128
23
1
D8
1N4148W
FL-G3-08
DIODE GP 75V 150MA SOD123FL
24
1
D10
SMBJ24ATR
TVS DIODE 24VWM 50VC DO214AA
25
6
D11,D12,D13,D14,D16,
D17
ESD105B
102EL
TVS DIODE 5.5VWM 14VC TSLP2-2
26
1
D15
SMBJ24C
A-E3/52
TVS DIODE 24VWM 38.9VC SMB
27
1
D19
28
1
D20
29
1
D21
30
1
J1
MMSZ470
2T1G
MBR0540
T1G
MMSD701
T1G
69410630
1002
UEB1112
C-2AK14H
DX07S02
4JJ2R130
0
31
1
J2
32
1
J3
33
1
J4
47272000
1
34
1
J5
54819051
9
35
1
J7
1935161
SFH11PBPCD20-STBK
SBH11PBPCD12-STBK
9611026404-AR
OSTTC02
0162
Diode, Zener, 15V, 0.5W, SOD123
DIODE SCHOTTKY 40V 0.5A SOD123
Diode, Shottky, 70V, 0.2A, SOD123
CONN JACK POWER R/A .100"PIN PCB
NXP
Semiconductors
Vishay
Semiconductor
Diodes Division
STMicroelectroni
cs
Infineon
Technologies
Vishay
Semiconductor
Diodes Division
On
Semiconductor
On
Semiconductor
On
Semiconductor
Wurth
electronics
Mfr Part
Number
GRM1555C1H
271JA01D
EEEFT1H331AP
GRM188R71H
471KA01D
C0402C822K5
RACTU
PMEG3050BE
P,115
1N4148WFLG3-08
SMBJ24A-TR
ESD105B102E
LE6327XTMA
1
SMBJ24CAE3/52
MMSZ4702T1
G
MBR0540T1G
MMSD701T1G
694106301002
Connector Receptacle USB TypeB 3.0,
Super Speed 9 Position Through Hole,
Right Angle, Horizontal
FOXCONN
UEB1112C2AK1-4H
USB TYP C TP MNT DL RW SMT
RECEP
JAE Electronics
DX07S024JJ2
R1300
Molex
472720001
Molex, LLC
548190519
Phoenix Contact
1935161
Connector Header 40 Position 0.100"
(2.54mm) Gold Through Hole
Sullins
Connector
Solutions
SFH11-PBPCD20-ST-BK
CONN HEADER VERT 24POS GOLD
Sullins
Connector
Solutions
SBH11-PBPCD12-ST-BK
CONN HEADER VERT SGL 2POS GOLD
3M
961102-6404AR
TERMINAL BLOCK 5MM VERT 2POS
PCB
On Shore
Technology Inc.
Murata
Electronics North
America
Connector Receptacle DisplayPort 20
Position Surface Mount, Right Angle,
Horizontal
Connector Receptacle USB - mini B 2.0
OTG 5 Position Through Hole, Right
Angle, Horizontal
TERM BLOCK PCB 2POS 5.0MM
GREEN
36
1
J8
37
1
J9
38
1
J11
39
1
J12
40
1
L1
1uH
FIXED IND 1UH 1.8A 48 MOHM SMD
41
1
L3
10uH
FIXED IND 10UH 9A 25.5 MOHM SMD
Bourns Inc.
42
2
L4,L5
220Ohm
@100MHz
FERRITE CHIP 220 OHM 2A 0603
TDK Corporation
43
1
L6
4.7uH
FIXED IND 4.7UH 2A 72 MOHM SMD
Bourns Inc.
44
1
LED1
GREEN
LED GREEN CLEAR 0603 SMD
Lite-On Inc.
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
OSTTC020162
LQM32PN1R0
MG0L
SRP1245A100M
MPZ1608S221
A
SRN50204R7M
LTSTC190GKT
65
Appendix B: Schematic and Bill Of Materials
LED ORANGE CLEAR 0603 SMD
Lite-On Inc.
MOSFET 2N-CH 60V 0.23A SOT-363
Diodes
Incorporated
Mfr Part
Number
LTSTC190KFKT
2N7002DW-7F
Transistor, 2N7002, N-Channel MOSFET, 60V, 115mA, SOT-23
ON Semi
2N7002LT1G
TRANS NPN 40V 0.2A SOT23
ON Semi
MOSFET N-CH 40V 13A SO-8FL
ON Semi
MOSFET N-CH 60V 8A 8-WDFN
ON Semi
0E
RES SMD 0.0OHM JUMPER 1/10W 0603
Panasonic
Electronic
Components
ERJ3GEY0R00V
0E
RES 0.0 OHM 1/16W JUMP 0402 SMD
Vishay Dale
CRCW040200
00Z0ED
100K
RES SMD 100K OHM 5% 1/10W 0402
R74
10K
RES 10K OHM 1/16W 1% 0402
1
R58
16K
RES SMD 16K OHM 1% 1/16W 0402
56
1
R56
1K
RES SMD 1K OHM 1% 1/10W 0402
57
1
R57
1K
RES SMD 1K OHM 5% 1/2W 0805
58
2
R46,R51
1M
RES SMD 1M OHM 1% 1/10W 0603
Yageo
59
2
R36,R37
2K
RES SMD 2K OHM 5% 1/16W 0402
Yageo
60
1
R70
30K
RES SMD 30K OHM 1% 1/16W 0402
Yageo
61
1
R7
330E
RES SMD 330 OHM 5% 1/10W 0603
Yageo
62
2
R38,R40
4.7K
RES SMD 4.7K OHM 5% 1/16W 0402
Yageo
63
1
R53
4.99K
RES SMD 4.99K OHM 1% 1/10W 0402
Panasonic
Electronic
Components
64
1
R59
5.1K
RES SMD 5.1K OHM 1% 1/16W 0402
Yageo
65
1
R29
1.13K
RES SMD 1.13K OHM 1% 1/16W 0402
66
1
R28
1.5K
RES SMD 1.5K OHM 1% 1/10W 0402
67
1
R169
16.5K
RES SMD 16.5K OHM 1% 1/10W 0603
68
1
R27
2.67K
RES SMD 2.67K OHM 1% 1/16W 0402
Yageo
69
1
R24
30E
RES SMD 30 OHM 1% 1/16W 0402
Yageo
70
1
R26
5.49K
RES SMD 5.49K OHM 1% 1/16W 0402
Yageo
71
1
R23
60.4E
RES SMD 60.4 OHM 1% 1/16W 0402
Yageo
72
1
R176
100E
RES SMD 100 OHM 1% 1/10W 0603
Panasonic
73
5
R109,R113,R118,R125,
R170
10K
RES SMD 10K OHM 1% 1/10W 0603
Panasonic
Item
Qty
Reference
45
1
LED2
46
2
Q3,Q4
47
2
Q1,Q2
48
1
Q5
49
1
Q6
50
1
Q7
51
4
R111,R124,R166,R168
52
7
53
13
54
1
55
R9,R22,R25,R61,R73,R
77,R162
R30,R31,R32,R33,R34,
R35,R41,R47,R60,R64,
R66,R67,R81
Value
ORANGE
2N7002D
W-7-F
2N7002LT
1G
MMBT390
4LT1
NTMFS58
34NL
NTTFS58
26NL
Description
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
Manufacturer
Panasonic
Electronic
Components
Samsung
ElectroMechanics
America, Inc
Yageo
Panasonic
Electronic
Components
Panasonic
Electronic
Components
Stackpole
Electronics Inc.
Panasonic
Electronic
Components
Stackpole
Electronics Inc.
MMBT3904LT
1G
NTMFS5834N
LT1G
NTTFS5826NL
TAG
ERJ2GEJ104X
RC1005F103C
S
RC0402FR0716KL
ERJ2RKF1001X
ERJP06J102V
RC0603FR071ML
RC0402JR072KL
RC0402FR0730KL
RC0603JR07330RL
RC0402JR074K7L
ERJ2RKF4991X
RC0402FR075K1L
RMCF0402FT
1K13
ERJ2RKF1501X
RMCF0603FT
16K5
RC0402FR072K67L
RC0402FR0730RL
RC0402FR075K49L
RC0402FR0760R4L
ERJ3EKF1000V
ERJ3EKF1002V
66
Appendix B: Schematic and Bill Of Materials
Item
Qty
Reference
Value
Description
Manufacturer
Mfr Part
Number
ERJ3EKF1432V
ERJ3EKF1503V
ERJ3GEYJ153V
ERJ3EKF1692V
74
1
R112
14.3K
RES SMD 14.3K OHM 1% 1/10W 0603
Panasonic
75
1
R115
150K
RES SMD 150K OHM 1% 1/10W 0603
Panasonic
76
1
R164
15K
RES SMD 15K OHM 5% 1/10W 0603
Panasonic
77
1
R123
16.9K
RES SMD 16.9K OHM 1% 1/10W 0603
Panasonic
78
2
R165,R182
1K
RES SMD 1K OHM 1% 1/10W 0603
Panasonic
Electronic
Components
79
1
R179
20E
RES SMD 20 OHM 5% 1/10W 0603
Panasonic
80
3
R129,R167,R174
20K
RES SMD 20K OHM 1% 1/10W 0603
Panasonic
81
1
R108
300E
RES SMD 300 OHM 5% 1/10W 0603
Panasonic
82
1
R110
5.1E
RES SMD 5.1 OHM 5% 1/10W 0603
Vishay
83
1
R172
5.1K
RES SMD 5.1K OHM 1% 1/10W 0603
Panasonic
Electronic
Components
ERJ3EKF5101V
84
1
R127
619E
RES SMD 619 OHM 1% 1/10W 0603
Panasonic
ERJ3EKF6190V
85
1
SW1
EVQPE105K
SWITCH TACTILE SPST-NO 0.05A 12V
86
1
U2
TPS61253
IC REG BOOST 5V 3.3A SYNC 9DSBGA
87
1
U3
NCP1034
IC, PWM Buck Controller, 100V,
NCP1034, SOIC16
88
1
U4
CD74HC2
38PWR
IC DECODER/DEMUX HS 3-8 16-TSSOP
89
1
U5
PS8740B
USB Type-C Redriving Switch for USB
Host / DisplayPort Source
90
1
U6
CY7C652
15
IC USB TO UART BRIDGE DUAL 32QFN
91
1
U7
92
1
U13
93
1
U14
94
1
U15
95
5
96
4
V3P3,V5P0,USB_P_P
WR,USB_C_PWR,TYP
E-C_VBUS
GND1,GND2,GND3,GN
D4
USBLC62P6
RT8299A
ZSP
L78L05AB
UTR
TVS DIODE 5.25VWM 17VC SOT666
IC REG BUCK ADJ 3A SYNC 8SOP
IC REG LDO 5V 0.1A SOT89-3
Panasonic
Electronic
Components
Texas
Instruments
On
Semiconductor
Texas
Instruments
Parade
Cypress
Semiconductor
Corp
STMicroelectroni
cs
Richtek USA Inc.
STMicroelectroni
cs
ON
Semiconductor
ERJ3EKF1001V
ERJ3GEYJ200V
ERJ3EKF2002V
ERJ3GEYJ301V
CRCW06035R
10JNEA
EVQ-PE105K
TPS61253YFF
R
NCP1034DR2
G
CD74HC238P
WR
PS8740B
CY7C6521532LTXI
USBLC6-2P6
RT8299AZSP
L78L05ABUTR
LM339DTBR2
G
LM339
IC COMPARATOR QUAD SGL 14TSSOP
RED
TEST POINT PC MINI .040"D RED
Keystone
Electronics
5000
BLACK
TEST POINT 43 HOLE 65 PLATED
BLACK
Keystone
Electronics
5001
MISC
compo
nents
97
4
Bumper
NA
BUMPER CYLIN 0.312" DIA BLK
3M
98
1
Type-C Clamping
Bracket
NA
Type-C Connector Bracket
GLOBAL
TECHNOLOGY
SERVICES
99
2
M2x5mm Screws
NA
100
1
Jumper Plug
NA
SCREW, Pan Head, machined screws,
M2 x 5mm
2.54MM JUMPER PLUG WITH TEST
POINT
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
Wurth
Electronics Inc
SJ61A6
Type-C
Connector
Clamping
Bracket
609002115121
67
Appendix B: Schematic and Bill Of Materials
Item
Qty
101
1
Reference
Value
Label
Description
Manufacturer
NA
LBL, PCA Identification Label, Vendor
Code, Datecode, Serial
Number(YYWWVVXXXX)
Cypress
Semiconductor
Mfr Part
Number
No load components
102
1
C52
0.1uF
CAP CER 0.1UF 10V 10% X7R 0402
TDK Corporation
103
1
C124
330uF
CAP ALUM 330UF 50V 20% SMD
Panasonic
DIODE SCHOTTKY 30V 5A SOD128
104
1
D18
PMEG305
0BEP,115
105
1
J6
302-S101
CONN HEADER VERT 10POS GOLD
106
1
J10
M209990445
SIL VERTICAL PC TAIL PIN HEADER
Harwin Inc.
107
5
R39,R54,R55,R79,R80
0E
RES 0.0 OHM 1/16W JUMP 0402 SMD
Vishay Dale
108
2
R75,R76
2K
RES SMD 2K OHM 5% 1/16W 0402
Yageo
109
8
R42,R43,R44,R45,R48,
R49,R50,R52
4.7K
RES SMD 4.7K OHM 5% 1/16W 0402
Yageo
110
1
R65
10K
RES 10K OHM 1/16W 1% 0402
111
1
R68
100K
RES SMD 100K OHM 5% 1/10W 0402
112
1
R177
5.49K
RES SMD 5.49K OHM 1% 1/10W 0603
Panasonic
113
3
TP11,TP12,VCONN_M
ON
YELLOW
TEST POINT 43 HOLE 65 PLATED
YELLOW
114
3
Vfb,V_SYS,DP_PWR
RED
TEST POINT PC MINI .040"D RED
Keystone
Electronics
Keystone
Electronics
B.4.3
NXP
Semiconductors
On Shore
Technology Inc.
Samsung
ElectroMechanics
America, Inc
Panasonic
Electronic
Components
C1005X7R1A1
04K050BB
EEEFT1H331AP
PMEG3050BE
P,115
302-S101
M20-9990445
CRCW040200
00Z0ED
RC0402JR072KL
RC0402JR074K7L
RC1005F103C
S
ERJ2GEJ104X
ERJ3EKF5491V
5004
5000
T yp e - C t o T yp e - A A d a p t e r B O M
Item
Qty
Reference
Value
Description
Manufacturer
Mfr Part Number
600-60275-01
PCB,1.27x0.93x0.032" CAF resistant
High Tg ENIG finish,4 layer, Color =
BLUE, Silk = WHITE.
Cypress Approved
Manufacturer
600-60275-01
1
1
2
1
C1
0.1uF
CAP CER 0.1UF 35V X7R 0603
Taiyo Yuden
GMK107B7104KAH
T
3
1
C2
1uF
CAP CER 1UF 35V X7R 0603
TDK Corporation
C1608X7R1V105K0
80AC
4
1
C3
2200pF
CAP CERAMIC 2KV X7R 1808
2200PF
JOHANSON
202R29W222KV4E
5
1
J1
DX07P024MJ1
USB Type-C Plug-Connector
Japan Aviation Electronics
DX07P024MJ1
Industry LTD.
6
1
J2
GSB311131HR
CONN RCPT USB 3.0 TYPE A R/A
9PS
Amphenol
GSB311131HR
7
1
R1
5.1K
RES SMD 5.1K OHM 5% 1/10W 0402
Panasonic
ERJ-2GEJ512X
Cypress Semiconductor
Cypress Semiconductor
8
1
LABEL
NA
LBL, PCA Identification Label, Vendor
Code, Datecode, Serial
Number(YYWWVVXXXX)
9
1
QR CODE
LABEL
NA
LBL, QR Code, CCG BASE BOARD
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
68
Revision History
Document Revision History
Document Title: CY4541 EZ-PD™ CCG4 Evaluation Kit Guide
Document Number: 002-10353
Revision
Issue Date
Origin of
Description of Change
Change
**
02/11/2016
MVTA/SELV
New evaluation kit guide.
*A
04/07/2016
MVTA
Updated PCB images , CyInstaller Images and performed text edits
*B
04/21/2016
MVTA
1.
2.
3.
4.
5.
6.
*C
04/05/2016
MVTA
Added KBA link in section 2.3
Added section 4.5
Added section 6.1.5
Updated PCBA images
Updated Appendix B
Added footnote in page#48 and page#53
Updated Figure 5 in chapter 2
CY4541 EZ-PD™ CCG4 Evaluation Kit Guide, Doc. No. 002-10353 Rev. *C
69
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