CYPD2703-09FNXIT [INFINEON]
EZ-PD™ CMG1 USB-C EMCA Controller;型号: | CYPD2703-09FNXIT |
厂家: | Infineon |
描述: | EZ-PD™ CMG1 USB-C EMCA Controller 光电二极管 外围集成电路 |
文件: | 总16页 (文件大小:371K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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EZ-PD™ CMG1 Datasheet
USB Type-C EMCA Controller
General Description
EZ-PD™ CMG1 is a dedicated USB Type-C EMCA controller that complies with the USB Type-C and Power Delivery (PD) standards
for Electronically Marked Type-C Thunderbolt and non-Thunderbolt passive cable applications. EZ-PD CMG1 integrates a complete
Type-C transceiver including the RA termination resistors on the VCONN pins and VBUS short circuit protection on both VCONN and
CC pins. CMG1 also includes 40 bytes of storage for configuration of vendor-, device-, and cable-specific configuration data.
EZ-PD CMG1 is targeted for passive EMCA implementations with either one or two e-marker chips on the cable.
Clocks and Oscillators
■ Integrated oscillator eliminating the need for external clock
Type-C Support and USB-PD Support
Power
Features
■ Supports USB PD3.0 spec and USB Type-C spec version 1.3
(Including support for the revised minimum VCONN operating
voltage of 3 V)
■ 2.7 V to 5.5 V operation
■ Sleep: 1.7 mA
■ Integrated high-voltage protection on CC, VCONN1, and
VCONN2 pins to protect against accidental shorts to the VBUS
pin on the Type-C connector
System-Level ESD Protection
■ On CC, VCONN1, and VCONN2 pins
■ 40-byte storage programmable over Type-C interface for
storing vendor-, device-, and cable-specific configuration data
■ ± 8 kV Contact Discharge and ±15 kV Air Gap Discharge based
on IEC61000-4-2 level 4C
■ Termination resistor RA on VCONN1 and VCONN2
■ Supports RA weakening to reduce power consumption
Package
■ 9-ball WLCSP
■ Supports electronically marked passive cable implementations
with one or two controllers
■ Supports industrial temperature range (–40 °C to +85 °C)
Logic Block Diagram
CMG1: Type-C Passive EMCA Controller
USB PD
Storage
Subsystem
40-byte Storage for
Configuration
VBUS-to-CC
Short Protection
VBUS-to-VCONN
1
Short Protection,
RA
Oscillator
VBUS-to-VCONN
2
Short Protection,
RA
Reset
VREF
EMCA Protocol
Engine
USB Type-C Physical
Layer
IREF
Cypress Semiconductor Corporation
Document Number: 002-20412 Rev. *I
•
198 Champion Court
•
San Jose, CA 95134-1709
•
408-943-2600
Revised April 24, 2019
EZ-PD™ CMG1 Datasheet
Contents
Pinouts .............................................................................. 3
Power................................................................................. 4
CMG1 Application Configuration Update Over
Acronyms........................................................................ 13
Document Conventions ................................................. 13
Units of Measure ....................................................... 13
Document History Page................................................. 14
Sales, Solutions, and Legal Information ...................... 15
Worldwide Sales and Design Support....................... 15
Products.................................................................... 15
PSoC® Solutions ...................................................... 15
Cypress Developer Community................................. 15
Technical Support ..................................................... 15
CC Interface ...................................................................... 5
Application Diagrams....................................................... 6
Electrical Specifications .................................................. 8
Absolute Maximum Ratings......................................... 8
Device-Level Specifications ........................................ 8
Ordering Information...................................................... 10
Ordering Code Definition........................................... 10
Packaging........................................................................ 11
Document Number: 002-20412 Rev. *I
Page 2 of 15
EZ-PD™ CMG1 Datasheet
Pinout
Table 1. 9-Ball CSP Pin Description
9-Ball CSP
Pin Name
CC
Description
A1
A2
A3
B1
B2
Communication Channel (VBUS short protected)/IEC
VCONN2 supply with RA termination (2.7 V to 5.5 V) (VBUS Short protected)/IEC
Do not use[1]
VCONN2
DNU[1]
VCONN1
VSS
VCONN1 supply with RA termination (2.7 V to 5.5 V) (VBUS Short protected)/IEC
Ground pin. Mandatory to connect to system GND
Optional GND pin. This pin can be connected to the system GND for better board layout
routability.
B3
C1
C2
O-GND[2]
VCCD
1.8-V Core Voltage Out. Connect to 1-µF capacitor
Optional GND pin. This pin can be connected to system GND for better board layout
routability.
O-GND[2]
Optional GND pin. This pin can be connected to system GND for better board layout
routability.
C3
O-GND[2]
Figure 1. Pinout of 9-WLCSP Bottom (Balls Up) View
3
2
1
A
B
C
DNU
VCONN2
CC
O-GND
O-GND
VSS
VCONN1
VCCD
O-GND
Notes
1. Keep pin A3 floating for all passive EMCA applications. See Figure 4 and Figure 5 for more details.
2. Any of the optional GND pins B3, C2, and C3 can be connected to system GND for better board layout routability. If connected to GND, ensure that the selected
pin/s are shorted with the VSS pin (B2) of the CMG1 device in their board layout. If users are not planning to connect these optional GND pins to system GND, then
it is mandatory to leave them unconnected in their board designs.
Document Number: 002-20412 Rev. *I
Page 3 of 15
EZ-PD™ CMG1 Datasheet
Power
Figure 2 shows an overview of the CMG1 power system requirement. CMG1 operates from two possible external supply sources,
VCONN1 and VCONN2. The VCONN supplies support operation over 2.7 V–5.5 V. CMG1 has two different power modes: Active and
Sleep, transitions between which are managed by the Power System. The VCCD pin, the output of the core regulator (1.8 V), is
brought out for connecting a 1-µF capacitor for regulator stability only. This pin is not supported as a power supply.
Figure 2. Power System
VCONN1
VCONN2
RA
1 uF
RA
1 uF
1.8-V Regulator
VCCD
1 uF
CC
Tx/Rx
Core
VSS
Document Number: 002-20412 Rev. *I
Page 4 of 15
EZ-PD™ CMG1 Datasheet
CMG1 Application Configuration Update Over CC Interface
The CMG1 Manufacturing Test Kit (MTK) Utility is used for updating the configuration parameters of the CMG1 devices over the CC
interface. The CMG1 MTK Utility is integrated as a part of the EZ-PD Configuration Utility and is supported by its version 1.1 Beta (or
later). Vendor-specific and cable-specific parameters can be set using the EZ-PD Configuration Utility. Once the parameters are set,
the CMG1 MTK Utility is used for configuration and testing of CMG1-based passive EMCA cables.
To use the CMG1 MTK Utility, you must use the CY4532 EZ-PD CCG3PA EVK as shown in a high-level block diagram in Figure 3.
The CMG1 MTK Utility is accompanied with a CMG1 MTK-specific firmware solution, which is intended for the CCG4 device present
on the CY4532 EZ-PD CCG3PA EVK’s Power Board. If customers are using the CY4532 EZ-PD CCG3PA EVK for the first time to
update the configuration parameters of CMG1 devices, then the CCG4 device’s firmware needs to be updated to this MTK-specific
firmware (detailed instructions are provided in Getting Started with EZ-PD CMG1 Application Note).
The EZ-PD Configuration Utility 1.1 Beta (or later), which integrates and supports the CMG1 MTK Utility, can be downloaded here.
For further details, follow the instructions provided in Getting Started with EZ-PD CMG1 Application Note for hardware setup and
step-by-step instructions. Also, see Chapter 4 of the EZ-PD Configuration Utility User Manual for more details on how to configure
and test CMG1-based passive EMCA cables.
Figure 3. CMG1 Application Configuration Update Over CC Interface
CY4532 EZ-PD CCG3PA EVK
Power Board
Host PC Running
I2C
CC
USB
CCG4 Device
(MTK specific
firmware)
EZ-PD CMG1 MTK
Utility (Supplied as a
part of EZ-PD
CMG1 Based
EMCA Cable
Cypress USB to
Serial Bridge
Configuration Utility)
Document Number: 002-20412 Rev. *I
Page 5 of 15
EZ-PD™ CMG1 Datasheet
diagram shown in Figure 4 requires a single VCONN wire to run
through the cable so that the CMG1 device can be powered
irrespective of which plug is connected to the host (DFP).
However, in the application diagram shown in Figure 5, the
VCONN signal does not run through the entire cable, but only
runs to the respective VCONN pin of the CMG1 device at each
end of the plug. Also, only one CMG1 device is powered at any
given instance, depending on which one is nearer to the DFP that
supplies VCONN.
Application Diagrams
Figure 4 and Figure 5 show the application diagrams of a
Passive EMCA application using CMG1 devices. Figure 4 shows
the application using a single CMG1 device per cable present at
one of the two plugs, whereas Figure 5 shows the same with two
CMG1 devices per cable present at each plug. The VBUS signal,
the SuperSpeed lines, Hi-Speed lines, and CC lines are
connected directly from one end to another. The application
Figure 4. Passive EMCA Application - Single CMG1 Chip Per Cable
Type-C
Plug
Type-C
Plug
VBUS
10nF
10nF
VCONN
VCONN
1uF
C1
VCCD
A2
B1
VCONN2
VCONN1
1uF
1uF
A3
DNU
CMG1
CYPD270X-09FNXIT
B3, C2,
C3
A1
O-GND
CC
B2
VSS
Pins B3, C2 and C3 can be
optionally connected to VSS.
See Table 1 for more details.
CC
SuperSpeed and Hi-Speed Lines
GND
Document Number: 002-20412 Rev. *I
Page 6 of 15
EZ-PD™ CMG1 Datasheet
Figure 5. Passive EMCA Application - Single CMG1 Chip Per Plug
Type-C
Plug
Type-C
Plug
VBUS
10nF
10nF
VCONN
VCONN
1uF
1uF
C1
C1
VCCD
VCCD
A2
A3
B1
B1
A2
A3
VCONN2
DNU
VCONN1
VCONN1
VCONN2
DNU
1uF
1uF
CMG1
CMG1
CYPD270X-09FNXIT
CYPD270X-09FNXIT
B3, C2,
C3
B3, C2,
C3
O-GND
A1
O-GND
A1
CC
CC
B2
VSS
B2
VSS
Pins B3, C2 and C3 can be
optionally connected to VSS.
See Table 1 for more details.
Pins B3, C2 and C3 can be
optionally connected to VSS.
See Table 1 for more details.
CC
SuperSpeed and Hi-Speed Lines
GND
Document Number: 002-20412 Rev. *I
Page 7 of 15
EZ-PD™ CMG1 Datasheet
Electrical Specifications
Absolute Maximum Ratings
Table 2. Absolute Maximum Ratings
Parameter
VCONN_MAX
VCC_PIN_ABS
Description
Min
–
Typ
–
Max
25
Units
Details/Conditions
Absolute max
Max supply voltage relative to VSS
Max voltage on the CC pin
V
V
–
–
25
Electrostatic discharge human body
model
ESD_HBM
2200
–
–
V
–
Electrostatic discharge charged
device model
ESD_CDM
LU
500
–140
8000
–
–
–
–
140
–
V
mA
V
–
–
Pin current for latch-up
Electrostatic discharge
IEC61000-4-2
ContactdischargeonCCand
VCONN pins
ESD_IEC_CON
Electrostatic discharge
IEC61000-4-2
Air discharge for CC and
VCONN pins
ESD_IEC_AIR
15000
–
–
V
Device-Level Specifications
See basic specifications in the following tables. More specifications will be added in a future version of this document.
Table 3. DC Specifications
Spec ID
SID.PWR#1
SID.PWR#5
SID.PWR#12
Parameter
CONN1 or
VCONN2
Description
Min
2.7
–
Typ
–
Max
5.5
–
Units
V
Details/Conditions
V
Power supply input voltage
–
VCCD
Output voltage (for core logic)
1.8
1
V
–
Externalregulatorvoltagebypasson
VCCD
CEFC
0.8
1.2
µF
X5R ceramic or better
Power supply decoupling capacitor
on VCONN1 and VCONN2
SID.PWR#13
CVCONN
0.8
1
–
µF
X5R ceramic or better
Active Mode, VCONN1 or VCONN2 = 2.7 V to 5.5 V. Typical values measured at VCONN1 or VCONN2 = 5 V
CC I/O in Transmit or
Receive
SID.PWR#8
IDD_A
Active current
–
5
7.5
mA
Sleep Mode, Typical values measured at VCONN1 or VCONN2 = 5 V and TA = 25 °C
CC as wakeup source. One
VCONN supply is powered,
the other is floating or
grounded.
SID25A
IDD_S
Sleep mode current
–
1.7
3.0
mA
Document Number: 002-20412 Rev. *I
Page 8 of 15
EZ-PD™ CMG1 Datasheet
Table 4. PD DC Specifications
Spec ID
Parameter
RA
Description
Min
Typ
Max
Units
Details/Conditions
All supplies force to 0 V and
0.2 V applied at VCONN1 or
VCONN2
SID.PD.6
Power cable termination
0.8
1
1.2
k
2.7 V applied at VCONN1 or
VCONN2 with RA disabled
SID.PD.7
SID.PD.14
SID.PD.15
SID.PD.16
RA_OFF
Power cable termination - disabled
0.4
150
0.75
–
–
M
µA
Leaker on VCONN1 or VCONN2 for
discharge upon cable detach
ILEAK
–
–
–
–
Ground offset tolerated by BMC
receiver
Relative to remote BMC trans-
mitter
VGNDOFST
ZOPEN_PD
–500
200
500
–
mV
k
Impedance of CC pin with VCONN1
and VCONN2 un-powered
0 V ≤ CC Voltage ≤ 5.5 V
Table 5. Storage Specifications
Spec ID Parameter
Description
Min
25
2
Typ
–
Max
100
10
–
Units
ms
Details/Conditions
SID.MEM#3 NVL_ERASE NVL bulk erase time
SID.MEM#4 NVL_WRITE NVL program
–40 °C TA 85 °C
–
ms
SID.MEM#5 NVL_DR
SID.MEM#5A NVL_DR
NVL data retention
NVL data retention
20
10
100
–
years 25 °C TA 55 °C
years 55 °C TA 85 °C
cycles 25 °C TA 55 °C
–
–
SID.MEM#6 NVL_ENPB NVL write endurance
–
–
Document Number: 002-20412 Rev. *I
Page 9 of 15
EZ-PD™ CMG1 Datasheet
Ordering Information
Table 6 lists the EZ-PD CMG1 part numbers and features.
Table 6. CMG1 Ordering Information
MPN
Application
Type-C Ports
Role
Package Type
Si ID
CYPD2703-09FNXIT
Passive Cable
1
EMCA
9-ball CSP
2600
Thunderbolt Passive
Cable
CYPD2704-09FNXIT
1
EMCA
9-ball CSP
2601
Ordering Code Definition
CY PD XX
XX - XX XX
X
X
X
T = Tape and reel
Temperature Range: I = Industrial (-40 oC to 85 oC)
X = Pb-free
Package Type: FN = CSP
Number of pins in the package
Application and Feature Combination Designation
Product Type: 27 = CMG1 Product Family
Marketing Code: PD = Power Delivery product family
Company ID: CY = Cypress
Document Number: 002-20412 Rev. *I
Page 10 of 15
EZ-PD™ CMG1 Datasheet
Packaging
Table 7. Package Characteristics
Parameter
Description
Conditions
Min
Typ
Max
Units
TA
Operating ambient temperature
Operating junction temperature
Package JA (9-pin CSP)
Industrial
–40
25
85
°C
TJ
Industrial
–38.68
26.32
86.32
31.9
°C
TJA
TJC
–
–
–
–
°C/W
°C/W
Package JC (9-pin CSP)
20.02
Table 8. Solder Reflow Peak Temperature
Maximum Time within 5 °C of Peak
Temperature
Package
Maximum Peak Temperature
9-pin CSP
260 °C
30 seconds
Table 9. Package Moisture Sensitivity Level (MSL), IPC/JEDEC J-STD-2
Package
MSL
9-pin CSP
MSL 1
Document Number: 002-20412 Rev. *I
Page 11 of 15
EZ-PD™ CMG1 Datasheet
Figure 6. 9-ball CSP Package Outline
002-21607 *B
Document Number: 002-20412 Rev. *I
Page 12 of 15
EZ-PD™ CMG1 Datasheet
Acronyms
Document Conventions
Table 10. Acronyms Used in this Document
Units of Measure
Acronym
CC
Description
configuration channel
Table 11. Units of Measure
Symbol
Unit of Measure
CPU
central processing unit
downstream facing port
dual role port
°C
degrees Celsius
hertz
DFP
Hz
DRP
KB
kHz
k
Mbps
MHz
M
Msps
µA
1024 bytes
kilohertz
electronically marked cable assembly, a USB
cable that includes an IC that reports cable
characteristics (e.g., current rating) to the Type-C
ports
EMCA
kilo ohm
megabits per second
megahertz
ESD
IC
electrostatic discharge
integrated circuit
microcontroller unit
no connect
mega-ohm
MCU
NC
megasamples per second
microampere
microfarad
NVL
PD
non-volatile latch
power delivery
µF
µs
microsecond
microvolt
PHY
POR
PSoC®
RX
physical layer
µV
power-on reset
Programmable System-on-Chip™
receive
µW
mA
ms
mV
nA
microwatt
milliampere
millisecond
millivolt
TX
transmit
a new standard with a slimmer USB connector and
a reversible cable, capable ofsourcing upto 100 W
of power
nanoampere
nanosecond
ohm
Type-C
USB
ns
Universal Serial Bus
pF
picofarad
ppm
ps
parts per million
picosecond
second
s
sps
V
samples per second
volt
Document Number: 002-20412 Rev. *I
Page 13 of 15
EZ-PD™ CMG1 Datasheet
Document History Page
Document Title: EZ-PD™ CMG1 Datasheet, USB Type-C EMCA Controller
Document Number: 002-20412
Orig. of
Change
Submission
Date
Revision
ECN
Description of Change
*H
*I
6242326
6554744
VGT
VGT
07/13/2018 Changed datasheet status to Final.
04/24/2019 Updated 9-ball CSP package diagram.
Document Number: 002-20412 Rev. *I
Page 14 of 15
EZ-PD™ CMG1 Datasheet
Sales, Solutions, and Legal Information
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Notice regarding compliance with Universal Serial Bus specification. Cypress offers firmware and hardware solutions that are certified to comply with the Universal Serial
Bus specification, USB Type-C™ Cable and Connector Specification, and other specifications of USB Implementers Forum, Inc (USB-IF). You may use Cypress or third
party software tools, including sample code, to modify the firmware for Cypress USB products. Modification of such firmware could cause the firmware/hardware combination
to no longer comply with the relevant USB-IF specification. You are solely responsible ensuring the compliance of any modifications you make, and you must follow the
compliance requirements of USB-IF before using any USB-IF trademarks or logos in connection with any modifications you make. In addition, if Cypress modifies firmware
based on your specifications, then you are responsible for ensuring compliance with any desired standard or specifications as if you had made the modification. CYPRESS
IS NOT RESPONSIBLE IN THE EVENT THAT YOU MODIFY OR HAVE MODIFIED A CERTIFIED CYPRESS PRODUCT AND SUCH MODIFIED PRODUCT NO LONGER
COMPLIES WITH THE RELEVANT USB-IF SPECIFICATIONS.
© Cypress Semiconductor Corporation, 2017-2019. This document is the property of Cypress Semiconductor Corporation and its subsidiaries ("Cypress"). This document,
including any software or firmware included or referenced in this document ("Software"), is owned by Cypress under the intellectual property laws and treaties of the United
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through resellers and distributors), solely for use on Cypress hardware product units, and (2) under those claims of Cypress's patents that are infringed by the Software (as
provided by Cypress, unmodified) to make, use, distribute, and import the Software solely for use with Cypress hardware products. Any other use, reproduction, modification,
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death, or property damage. Examples of High-Risk Devices are weapons, nuclear installations, surgical implants, and other medical devices. "Critical Component" means
any component of a High-Risk Device whose failure to perform can be reasonably expected to cause, directly or indirectly, the failure of the High-Risk Device, or to affect
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Document Number: 002-20412 Rev. *I
Revised April 24, 2019
Page 15 of 15
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