1. New Product Introduction: EZ-PD CCG1: USB Type-C Port Controller With PD CCG1 = Type-C Controller Gen1 Type-C = New USB Connector Standard PD = Power Delivery
Don’t Miss the Rapid Change over to the New, Slimmer, All-in-One, 100-W, Type-C Connector
Title

2. Terms You Will Hear Today
USB Type-C (Type-C)
A new standard with a slimmer and reversible USB plug, a reversible cable, multiple protocol support and 100-W PD
Configuration Channel (CC)
USB Type-C bus wire used to carry the PD protocol signals
Dp, Dn
USB Type-C bus wires used to transmit and receive USB 2.0 data
TXp, TXn, RXp, RXn
USB Type-C bus wires used to transmit and receive USB 3.0 and PCIe or DisplayPort data
Sideband Use (SBU)
The use of a USB Type-C bus wire for non-USB control signals, such as DisplayPort control signals
Type-C Transceiver
A transmitter/receiver that communicates over the CC
Electronically Marked Cable Assembly (EMCA)
A USB cable with an embedded IC that reports cable characteristics (e.g., current rating) to the Type-C ports
VCONNECTOR (VCONN)
USB Type-C bus wire used to power the controller in the EMCA
VBUS
USB Type-C bus wire used for system power; usually 5 V, but increased to 20 V on 100-W USB-PD systems
USB-IF
The USB Implementers Forum creates and maintains the USB specification
USB 3.0 Type-C Plug
GND
RX2p
RX2n
VBUS Dn CC
SBU1 Dp
TX1n
TX1p
TX2p
TX2n
SBU2
VCONN
RX1n
RX1p
2.4 mm
Terms of Art

3. Terms You Will Hear Today
USB Power Delivery (USB-PD, PD)
A new USB standard that increases power delivery over VBUS from 7.5 W to 100 W
Both USB hosts (e.g. a PC) and USB devices (e.g. a hard disk drive) can act as either a Provider1 or a Consumer2 of power
For example, a monitor can power a notebook, which in turn can power a tablet or a hard disk drive
The USB-PD standard uses a dedicated CC wire to negotiate the Power Delivery configurations
Downstream-Facing Port (DFP), Upstream-Facing Port (UFP), Dual-Role Port (DRP)
DFP is a USB Type-C port on a host or a hub to which devices are connected
UFP is a USB Type-C port on a device or a hub that connects to a host or a hub DFP
DRP is a USB Type-C port that can operate as either a DFP or a UFP
Peripheral Component Interconnect Express (PCIe)
A standard for the primary bus in a PC
DisplayPort (DP)
A digital display interface standard developed by the Video Electronics Standards Association (VESA)
Used primarily to connect a video source to a display, such as a monitor to a PC
CCG1
A Cypress USB Type-C port controller compliant with the latest USB Type-C and PD standards
Uses Cypress’s proprietary technology with a 32-bit, 48-MHz ARM® Cortex ® -M0 with 32KB flash
Integrates up to two Type-C Transceivers with OCP3 and OVP4 features
Available in 40-pin QFN (36 mm2), 35-ball CSP (6.8 mm2) and 16-pin SOIC (60 mm2) packages
Provides a complete solution to add USB Type-C and PD support to power adapters, cables, notebooks, tablets and monitors
1 Provider = A Type-C port that sources power over VBUS 3 OCP: overcurrent protection
2 Consumer = A Type-C port that sinks power from VBUS 4 OVP: overvoltage protection
Terms of Art

4. USB Type-C: Connector of the Future
USB Type-A and Type-B are the current USB-IF standards, but they have limitations
They use large connectors that prevent slim industrial designs (plug height: A = 4.5 mm; B = 10.4 mm)
They require a fixed plug orientation and a fixed cable direction
They carry only USB signals
Power delivery implementation on them is complicated, expensive and limited to 7.5 W
USB Type-C is the new USB-IF standard that solves these problems and enables:
Slim industrial design with a 2.4-mm plug height
Reversible plug orientation and cable direction
Transport of both USB signals and PCIe or DisplayPort signals on the same connector
Easy implementation of low-cost USB Power Delivery up to 100 W
USB Type-C is the new, slimmer, all-in-one, 100-W connector
USB Micro-B
4.7 mm
1.8 mm
4.5 mm
DisplayPort
USB Type-A
10.4 mm
4.0 mm
2.4 mm
Power
USB Type-C – Combines all in one
USB Type-B
Market Vision

5. USB Type-C Port Controllers A $350M Market by 2019
USB Type-C port controllers are projected to grow from $65M in 2015 to $350M in 2019 at a 40% CAGR
The USB Type-C port is universal: it is slimmer, reversible, handles multiple protocols and supports up to 100-W PD
Every PD-capable, multiple-protocol USB Type-C port requires a dedicated controller
This market requires a USB-IF certified solution that:
Marks cables electronically with a controller IC embedded in the cable plug to report the cable’s characteristics (e.g., current rating)
Multiplexes USB signals with PCIe or DisplayPort signals on the same connector
Supports all Power Delivery profiles1 up to 100 W, for notebooks, tablets, monitors, USB cables and power adapters
Cypress has been “Making USB Universal®” since 1996
Cypress has shipped over 1.4 billion USB controllers
Cypress has been a leading supplier in every generation of USB technology: USB 1.1, USB 2.0 and USB 3.0
Accelerate your conversion to USB Type-C and PD with Cypress’s CCG1 Type-C port controller
Notebook
Power Adapter
Cable
Monitor
Tablet
Products That Will Require Type-C Port Controllers
1 A USB-IF specified combination of voltage and current ratings that define the power provided (e.g., 20 V and 5 A: 100-W power provided)
Market Positioning

6. Design Problems Engineers Face
Engineers need USB Type-C solutions today
Dedicated Type-C port controllers do not exist, forcing engineers to consider complex, expensive, do-it-yourself MCU solutions
MCU-based solutions do not meet all of the needs of USB Type-C applications
General-purpose MCUs do not have an integrated Type-C Transceiver or overvoltage protection circuitry
Rapidly evolving USB standards make compliance and interoperability a challenge
The USB Type-C and PD compliance test specifications are continually changing and won’t be finalized until late 2015
Cypress’s CCG1 USB Type-C port controller solves these problems, providing:
A cost-effective, dedicated controller for all USB Type-C and Power Delivery applications
Two integrated Type-C Transceivers with overvoltage and overcurrent protection circuitry
An ARM Cortex-M0 with 32KB flash and fully compliant firmware that enables field upgrades as the USB-IF specification changes
Bring your USB Type-C products to market faster with CCG1, a programmable USB Type-C port controller that provides 100-W PD support and reduces BOM
Design Problems

7. CCG1 Simplifies Design, Reduces BOM
Integrated Type-C transceivers, OVP1 and OCP2 circuitry simplify system design and reduce BOM cost
MCU-based solutions require external comparators to support Type-C signaling and overvoltage protection
MCU-based solutions implement the Type-C transceiver in firmware, requiring engineering effort and additional memory
CCG1 Type-C Port Controller With
Integrated Type-C Transceivers
MCU-Based Solutions
CC_RD6
CC_CTRL5
CC_TX14
CC_RX13
General-Purpose
MCU
CC_REF3 R C
Rd12
Rp10
CMP
VMON8
VBUS
V_REF17
V_REF27
V_REF37
VCC9
CC5
USB Type-C
Connector
CC_RD6
CC_CTRL11
CC 5
CC_RP4
CCG1
CC_REF3
CC5 R
Rp10 C
Rd12
VCC9
V_REF7
VBUS
VMON8
USB Type-C
Connector
External components
9 resistors
1 capacitor
0 comparators
Firmware development
Not required
External components
12 resistors
1 capacitor
2 comparators
Firmware development
Required
1 Overvoltage protection
2 Overcurrent protection
3 Reference voltage used to detect the value of the Configuration Channel (CC)
4 A control signal that is driven HIGH when there is a downstream-facing port
5 Configuration Channel: USB Type-C bus wire used to carry the PD protocol signals
6 A control signal that is driven LOW when there is an upstream-facing port
7 A reference voltage used to check for overvoltage
8 The bus voltage that is compared with the reference voltage
9 The I/O voltage of Type-C bus wire
10 A termination resistor denoting a downstream-facing port
11 A control signal that is driven LOW to transmit data
12 A termination resistor denoting an upstream-facing port
13 The receive signal of the CC
14 The transmit signal of the CC 6
Cypress Solution

8. CCG1 Is Programmable and Upgradable
CCG1 can be upgraded to keep pace with changes in the USB-IF specification
The ARM Cortex M0 and 32KB flash can be programmed anytime, anywhere using its Serial Wire Debug (SWD), I2C or CC1 wires
Upgrading CCG1 Using SWD
Upgrading CCG1 Using I2C
Upgrading CCG1 Using CC1
Upgrade.EXE
Click Here
PSoC® Programmer
MCU
USB
I2C
CCG1
CCG1
SWD
CC1
CCG1
Run PSoC Programmer software on a PC with a MiniProg3 USB dongle to program the CCG1. Typically used during product development.
Use an MCU embedded in the USB Type-C cable/accessory or a production tester to program CCG1. Can be used on the production line or in the field.
Use a PC running a firmware upgrade application to program CCG1 in the USB Type-C cable directly. Can be deployed by cable manufacturers to provide upgrades to the end user.
1 Configuration Channel: USB Type-C bus wire used to carry the PD protocol signals
Cypress Solution

9. CCG1 Solution vs. Competition’s
Feature
CYPD LQXI
(DIY1 Solution)
MSP430F5310
STM32F031K4
LPC1102LVUK
CPU
ARM Cortex-M0
48-MHz
RISC Core
25-MHz
50-MHz
Flash2, SRAM
32KB, 4KB
32KB, 6KB
32KB, 8KB
Type-C Transceiver
Yes No
OVP
Serial Interface
1 SPI, 1 I2C, 1 UART
1 SPI, 1 I2C, 2 UART
Supply Voltage V V
Low Power
(Deep Sleep)
1.3 μA
1.4 μA
1.8 μA
2.0 μA
Packages
40-QFN, 35-CSP, 16-SOIC
48-QFN, 80-BGA
32-QFN
16-CSP
1 Do it Yourself
2 Includes PD firmware
Competitive Comparison

10. CCG1 Power Adapter Solution Value
Competitor
Type-C Controller: ST-Micro STM32F031K4
Price: $0.751
BOM Integration
Dual-channel comparator: TI LM339DR
Price: $0.101
Additional Value
USB-IF Compliant PD Protocol Stack: Saves eight man-
weeks of engineering effort at $2K per man-week,
amortized over 100,000 units
Value Added: $0.16
16-SOIC hand-solderable package: Saves 5 cm2 PCB QFN interposer cost and expensive machine assembly cost
Value Added: $0.052
Integrated Type-C PHY: Saves four man-weeks of
engineering effort at $2K per man-week, amortized over
100,000 units
Value Added: $0.08
Competitor
$0.75
Dual-channel comparator
$0.10
BOM Integration Value
$0.10
USB-IF Compliant PD Protocol Stack
$0.16
16-SOIC Hand-Solderable Package
$0.05
Integrated Type-C PHY
$0.08
Total Additional Value
$0.29
Total Value Delivered
$1.14
CCG1 Solution Value new:
Total Cost:
12% Total Savings:
CYPD SXQ
$1.001
$0.14
1 Estimated 100ku pricing
2 $0.01 per cm2 of PCB area cost
Pricing

11. CCG1: USB Type-C Port Controller With PD
Applications
Block Diagram
Notebooks, tablets, monitors, docking stations, power adapters, Type-C EMCAs and dongles
CCG1: USB Type-C Port Controller with PD
MCU Subsystem
Programmable Analog Blocks
I/O Subsystem
Features
Type-C Port 1
32-bit MCU Subsystem
48-MHz ARM® Cortex®-M0 CPU with 32KB flash and 4KB SRAM
Integrated Analog Blocks
12-bit, 1-Msps ADC for VBUS voltage and current monitoring
Dynamic overcurrent and overvoltage protection
Integrated Digital Blocks
Two configurable 16-bit TCPWM1 blocks
One SCB1: I2C master or slave, SPI master or slave, or UART
Up to eight GPIOs
Type-C Support
Integrated Type-C Transceiver, supporting two Type-C ports
Controls routing of all protocols to an external MUX
PD Support
Supports Provider2 and Consumer3 roles and all power profiles
Low-Power Operation
V operation
Sleep: 1.3 mA, Deep Sleep: 1.3 µA
Packages
40-pin QFN (36 mm2), 35-ball CSP (6.8 mm2),
16-pin SOIC (60 mm2)
IDAC
ADC
Cortex®-M0
48 MHz
Comparators
Programmable Digital Blocks
Type-C Port 2
TCPWM4
Advanced High-Performance Bus (AHB)
Flash (32KB)
Programmable Interconnect and Routing
SCB1
(I2C, SPI, UART)
SRAM
(4KB)
Profiles and Configurations
GPIOs
Baseband MAC
Serial Wire Debug
Baseband PHY
Availability
Collateral
Samples: Now
Production: Now
Preliminary Datasheet: CCG1 Datasheet
1 Serial communication block 3 A Type-C port that sinks power from VBUS
2 A Type-C port that sources power over VBUS 4 Timer, counter, pulse-width modulation block
Product Overview

12. Getting Started With CCG1
1. Download the CCG1 Datasheet
2. Watch the CCG1 Demo Video
3. Contact Cypress for a CCG1 Demo Kit:
EMCA1 Demo Kit: Development kit for USB Type-C cables and dongles
Host Demo Kit: Development kit for USB hosts2, e.g., notebooks and tablets
Client Demo Kit: Development kit for USB devices3, e.g., monitors and docks
CCG1 EMCA Demo Kit
CCG1 Host Demo Kit
CCG1 Client Demo Kit
Type-C Connector
CCG1
DP Connector
USB 3.0 Connector
1 Electronically Marked Cable Assembly is a USB cable with an IC that reports cable characteristics (e.g., current rating) to the Type-C ports
2 The USB host (e.g., a PC) directs traffic flow and distributes power over the bus
3 The USB device (e.g., a hard disk drive) is a peripheral on the bus
Getting Started

13. APPENDIX
Appendix

14. References and Links
Product datasheet: CCG1 Datasheet Product roadmap: USB Roadmap USB Type-C and Power Delivery Demo Kits: CCG1 Demo Kits Product demo video: CCG1 Demo Video Knowledge base article: CCG1 Knowledge Base USB 3.1 specification, including Type-C: USB Power Delivery specification: Visit Cypress’s CCG1 product webpage for additional details
References and Links

15. Type-C product applies to any USB speed
USB Portfolio
Device
Hub
Bridge
Host
Storage
Type-C
USB 3.0
CYUSB301x
FX3
32-Bit Bus to USB 3.0
ARM9, 512KB RAM
CYUSB33xx
HX3
4 Ports, Shared Link™1
BC 1.22, Ghost Charge™3
CYUSB306x
CX3
CSI-24 to USB 3.0
4 CSI-24 Lanes, 1 Gbps/Lane
CYUSB303x
FX3S
16-Bit Bus to USB 3.0
RAID5, Dual SDXC6/eMMC7
NEW
CYPD1xxx
CCG1
USB Type-C Port Controller
2 PD Ports, 5 Profiles, 100 W
Q115
DX3
USB 3.0 to DSI8 TX
Contact Sales
NEW
CYUSB302x
SD3
SDXC6/eMMC7 to USB 3.0
RAID5
CCG2
USB Type-C Cable Controller
Contact Sales
NEW
Q115
GX3
USB 3.0 to Gigabit Ethernet
Contact Sales
NEW
USB 2.0
CY7C6801x/53
FX2LP
16-Bit Bus to USB 2.0
8051, 16KB RAM
CY7C656x4
HX2VL
4 Ports
4 Transaction Translators
CYWB016xBB
Bay™
HS USB OTG
Dual SDXC6/eMMC7
CYWB0x2xABS
Arroyo™, Astoria™
16-Bit Bus to USB 2.0
8051, Dual SD/eMMC7
Type-C product applies to any USB speed
CY7C68003 TX2UL
ULPI9 PHY
13, 19.2, 24, 26 MHz
CY7C656x1
HX2LP
4 Ports, Industrial Grade
1 Transaction Translator
CY7C6803x
NX2LP
NAND Flash to USB 2.0
8051, 15KB RAM
CY7C683xx AT2LP
Parallel ATA to USB 2.0
8051
USB 1.1
CY7C638xx enCoRe™ II
M8C MCU, 20 GPIOs
SPI, 8KB Flash
CY7C6521x
USB-Serial
UART/SPI/I2C to USB
2 Channels, CapSense®
SL811HS
FS USB Host/Device
256Byte RAM
CY7C64215 enCoRe III
M8C MCU, 50 GPIOs, ADC
I2C/SPI, 16KB Flash
CY7C65213
USB-to-UART (Gen 2)
3 Mbps, 8 GPIOs
CY7C67300 EZ-Host
4 Ports, FS USB OTG
32 GPIOs
CY7C643xx enCoRe V
M8C MCU, 36 GPIOs, ADC
I2C/SPI, 32KB Flash
CY7C64225
USB-to-UART (Gen 1)
230 Kbps
CY7C67200 EZ-OTG™
2 Ports, FS USB OTG
25 GPIOs
1 Simultaneous USB 2.0 and USB 3.0 traffic on the same port
2 Battery Charging specification v1.2
3 Enables USB charging without host connection
4 Camera Serial Interface v2.0
5 Redundant array of independent disks
6 SD extended capacity
7 Embedded MultiMedia Card
8 Display Serial Interface
9 UTMI low-pin interface
Production
Development
QQYY
Availability
Sampling
Concept
Status
Roadmap

16. USB Type-C to DisplayPort (DP1) Cable
CCG1 Solution Example:
USB Type-C to DisplayPort (DP1) Cable
Cypress Solution Value
Block Diagram
Design Challenges
Legacy displays have DP1 and not Type-C
Type-C to DP1 adapter solutions are needed
Solutions must be turnkey for ease of design
Solutions must be flexible to keep up with USB-IF2 standards
Solutions must be highly integrated to lower BOM cost
Solutions must be in a package that fits in a cable assembly
CCG1 Solution
Supports Type-C to DP1 with an ARM® Cortex®-M0 controller
Supports PD protocol for Type-C to DP1 with the 32KB flash
Ships with USB-IF2 compliant factory-programmed firmware
Supports field upgrades with free, fully compliant firmware
Integrates Type-C transceiver, supports multiple protocols
Available in 35-ball CSP (6.8 mm2) and 40-pin QFN (25 mm2)
USB Type-C DP1 Dongle
Data Lines (USB SuperSpeed, USB Hi-Speed, DisplayPort)
DisplayPort Receptacle 12 10
DisplayPort1
USB Hi-Speed 2
CCG1
CYPD FNXI 2
USB
Device
Controller
Type-C Plug
GPIOs
VCONN3
CC4
GND 2
Suggested Collateral
Webpage: CCG1 Web page
Datasheet: CCG1 Datasheet
Demo Kit: CCG1 Client Demo Kit
Video: CCG1 Demo Video
USB Type-C DP1 Cable
A notebook PC accessory that converts a USB Type-C port to a DP1 output to connect a monitor
How To Get Started
Get a CCG1 Client Demo Kit
1 A display interface standard developed by the Video Electronics Standards
2 The USB Implementers Forum creates and maintains USB specifications
3 USB Type-C bus wire used to power the IC in the EMCA
4 Configuration Channel is the USB Type-C bus wire used to carry the PD protocol signals
Solution Example

17. AC Adapter Primary Side AC to DC Power Conversion
CCG1 Solution Example:
Type-C Power Adapter
Cypress Solution Value
Block Diagram
Design Challenges
Notebook designers want a Type-C solution now
Short time-to-market demands programmable solutions
Solutions must be turnkey for ease of design
Solutions must be highly integrated to lower BOM cost
Solutions must be flexible to keep up with USB-IF standards
Industry standards demand low power for no-load conditions
CCG1 Solution
Provides Type-C solution with PD1 today
Includes an ARM® Cortex®-M0 with 32KB flash
Ships with USB-IF compliant factory-programmed firmware
Integrates Type-C Transceiver and OVP2, OCP3 circuitry
Supports field upgrades with free, fully compliant firmware
Delivers low power: Deep Sleep 1.3 µA, Hibernate 150 nA
Type-C Power Adapter with CCG1
AC Adapter Primary Side AC to DC Power Conversion
USB
Type-C
Captive Cable
Assembly10
VOUT4
FET
VBUS5
20-V to 3.3-V
Regulator
Gate
Driver
VDD
VBUS_CTRL7
CCG1
CYPD SXQ
VSEL6
CC8
CS9
GND
Rsense
Suggested Collateral
Webpage: CCG1 Web page
Datasheet: CCG1 Datasheet
Demo Kit: CCG1 Client Demo Kit
Video: CCG1 Demo Video
Type-C Power Adapter with CCG1
CCG1 supports all PD Profiles required for a 100-W power adapter
How To Get Started
Get a CCG1 Client Demo Kit
1 A new USB standard that increases power delivery over VBUS from 7.5 W to 100 W 6 Output voltage selection
2 Overvoltage protection 7 Signal to control VBUS load
3 Overcurrent protection 8 Configuration Channel is the USB Type-C bus wire used to carry the PD protocol signals
4 DC output voltage of the AC adapter 9 Current-sensing input
5 The power wire of the USB bus 10 A cable permanently attached to the AC adapter
Solution Example

18. Type-C Notebook CCG1 Solution Example: Cypress Solution Value
Block Diagram
Design Challenges
Notebook designers want a Type-C solution now
Short time-to-market demands programmable solutions
Solutions must be turnkey for ease of design
Solutions must be highly integrated to lower BOM cost
Solutions must be flexible to keep up with USB-IF standards
Video, data and power use multiple types of connectors
CCG1 Solution
Provides Type-C solution with PD1 today
Includes an ARM® Cortex®-M0 with 32KB flash
Ships with USB-IF compliant factory-programmed firmware
Integrates Type-C Transceiver and OVP2, OCP3 circuitry
Supports field upgrades with free, fully compliant firmware
Routes video, data and power over one Type-C connector
Type-C Notebook with CCG1
VBUS5
USB
Type-C Receptacle
4 FETs
BCC4
Battery
VCONN6
I2C 3
FET_CTRL8 4
CCG1
CYPD LQXI
EC7 3
CC9
I2C 5
USB Host on
Motherboard 6
MUX 10
Data Lines
Suggested Collateral
DisplayPort on
Motherboard 8
Webpage: CCG1 Web page
Datasheet: CCG1 Datasheet
Demo Kit: CCG1 Host Demo Kit
Video: CCG1 Demo Video
Type-C Notebook with CCG1
CCG1 supports both PD provider and consumer roles, allowing a notebook to provide power to or consume power from its Type-C port
How To Get Started
Get a CCG1 Host Demo Kit
1 A new USB standard that increases power delivery over VBUS from 7.5 W to 100 W 6 The power wire of the USB Type-C bus that is used to power the IC in the EMCA. An
2 Overvoltage protection Electronically Marked Cable Assembly (EMCA ) is a USB cable with an IC that reports
3 Overcurrent protection cable characteristics (e.g., current rating) to the Type-C ports
4 Battery charge controller 7 Embedded controller is the keyboard controller, often used as a general-purpose MCU
5 The power wire of the USB bus 8 Signals to control VBUS and VCONN switch FETs
9 Configuration Channel is the USB Type-C bus wire used to carry the PD protocol signals
Solution Example

19. VBUS Voltage Regulator
CCG1 Solution Example: Type-C Monitor
Cypress Solution Value
Block Diagram
Design Challenges
Monitor designers want a USB Type-C solution now
Short time-to-market demands programmable solutions
Solutions must be turnkey for ease of design
Solutions must be highly integrated to lower BOM cost
Solutions must be flexible to keep up with USB-IF standards
Type-C requires video, data and power on a single cable
CCG1 Solution
Provides Type-C solution with PD1 today
Includes an ARM® Cortex®-M0 with 32KB flash
Ships with USB-IF compliant factory-programmed firmware
Integrates Type-C Transceiver and OVP2, OCP3 circuitry
Supports field upgrades with free, fully compliant firmware
Routes video, data and power over one Type-C connector
Type-C Monitor with CCG1
VBUS4
USB
Type-C
Receptacle
4 FETs
VBUS Voltage Regulator
VCONN5
VR_CTRL6 3
FET_CTRL7 4
CCG1
CYPD LQXI
CC8
I2C 3 5
Monitor
USB Hub in
Monitor 6
MUX 10
Data Lines
Suggested Collateral
DisplayPort in
Monitor 8
Webpage: CCG1 Web page
Datasheet: CCG1 Datasheet
Demo Kit: CCG1 Client Demo Kit
Video: CCG1 Demo Video
Type-C Monitor with CCG1
CCG1 supports all PD1 profiles and data routing controls, enabling a monitor to power a notebook while carrying video and USB signals in the same cable
How To Get Started
Get a CCG1 Client Demo Kit
1 A new USB standard that increases power delivery over VBUS from 7.5 W to 100 W 5 The power wire of the USB Type-C bus that is used to power the IC in the EMCA. An
2 Overvoltage protection Electronically Marked Cable Assembly (EMCA ) is a USB cable with an IC that reports
3 Overcurrent protection cable characteristics (e.g., current rating) to the Type-C ports
4 The power wire of the USB bus 6 Signals to control voltage regulator
7 Signals to control VBUS and VCONN load switches
8 Configuration Channel is the USB Type-C bus wire used to carry the PD protocol signals
Solution Example

20. CCG1 Product Selector Guide
Part Number
Application
Type-C
Ports
OCP
OVP
Termination
Resistor
Role
Package
CYPD FNXIT
Cable, EMCA 1 No
Ra1
Cable
35-CSP
CYPD LQXI
Monitor
Yes
Rd2, Rp3
DRP
40-QFN
CYPD LQXI
Notebook
CYPD FNXIT
Notebook, Tablet, Smart phone
CYPD SXI
Power adapter
Rp2
DFP
16-SOIC
CYPD SXQ
CYPD LQXI
Notebook, desktop
Rp3
CYPD FNXIT
Type-C to DP, Type-C to HDMI
CYPD LQXI
Part Numbering Decoder CY PD X X XX - XX XX X X X
T = Tape and reel
Temperature Range: I = Industrial (-40ºC-85ºC),
Q = Extended industrial (-40ºC-105ºC)
Lead: X = Lead-free
Package Type: FN = CSP, LQ = QFN, SX = SOIC
Number of pins in the package
Feature: Unique combination of OCP, OVP
(0X = No, No; 1X = Reserved; 2X or 3X = Yes, Yes)
Number of Type-C ports: 1 = 1 Port, 2 = 2 Port
Product Type: 1 = First generation, 2 = Second generation
Marketing Code: PD = Power Delivery product family
Company ID: CY = Cypress
1 Termination resistor denoting an EMCA 2 Termination resistor denoting a UFP 3 Termination resistor denoting a DFP
Product Selector Guide