Are You Ready for USB Type-C?
Overview and Solutions for USB Type-C and Power Delivery
Ravi S. Shah | NXP
Steven Guan | NXP
ARM TechCon
November 11, 2015
COVER PAGE SUBTITLE
PLACEHOLDER
COMPANY CONFIDENTIAL
Agenda
•
Introduction to the USB Type-C Standard
•
Ecosystem, Market View, Applications
•
System Solution for USB Type-C Connector
•
NXP Solutions Advantage
2
November 10, 2015
USB Type-C interface
Benefits
•
Size
• Smaller connector designed to fit all form factors
•
Ease of use
• User friendly
• Independent of plug orientation and
cable direction
•
Future scalability
• Designed to support future upgrades
in the spec – higher speeds
•
Extends USB family
• Legacy USB devices supported
•
‘Last connector’
• Enables one connector platform
• Supports power, video and data over single connector
3
November 10, 2015
Capabilities of USB Type-C interface
•
USB Type-C standard
• Allows USB 2.0, USB 3.1 and up to 15W (5V and 1.5A or 3A)
• USB 3.1 Gen1 (5 Gbps), Gen2 (10 Gbps)
•
USB Power Delivery (PD) standard
• Adds ability to do scalable power charging (up to 100W)
•
USB Type-C Alternate Mode standard
• Adds ability to support DisplayPort video over USB Type-C
Alternate Mode spec is tied to PD as they use the same
messaging architecture. USB-PD implementation is required
to support Alternate Mode.
4
November 10, 2015
What is USB Power Delivery (PD)?
•
USB-PD specification extends USB capability to 100W
•
Various power configurations possible – fixed, programmable, battery,
fast charging
•
Possible to change the power flow (role-swap)
•
Various power profiles defined:
•
•
•
•
•
Profile # 1 – capable of supplying 5V @ 2A
Profile # 2 – capable of supplying 5V @ 2A, 12V @ 1.5A
Profile # 3 – capable of supplying 5V @ 2A, 12V @ 3A
Profile # 4 – capable of supplying 5V @ 2A, 12V and 20V @ 3A respectively
Profile # 5 – capable of supplying 5V @ 2A, 12V and 20V @ 5A respectively
Note that these power profiles are guidelines only.
A design does not need to stick to one of these profiles.
5
November 10, 2015
What is Alternate Mode support?
•
Alternate Mode support allows signals other than USB to pass through
the Type-C connector
•
Under Alternate Mode, a Type-C DRP can check the capability on the
other end and send DisplayPort data over Type-C
•
Up to 4 lanes of DP signals can be sent through Type-C interface
•
This way video connectors other than DisplayPort (e.g. VGA, HDMI) can
be supported through Type-C protocol converters
6
November 10, 2015
USB Type-C connector – pinout and alignment
Receptacle (Front View)
USB 3.0
USB 2.0
Normal Plug
7
November 10, 2015
USB 3.0
Reverse Plug
USB Type-C spec – power
Priority order for power
1.
2.
3.
4.
USB PD
USB Type-C
USB BC1.2
USB 2.0, USB3.1
Type
8
Voltage
Current
USB 2.0
5V
500 mA
USB 3.0/USB 3.1
5V
900 mA
USB BC1.2
5V
1.5A
USB Type-C (without PD)
5V
1.5A, 3A
USB Type-C PD
Up to 20V
Up to 3A (cable)
Up to 5A (elec. marked cable)
November 10, 2015
USB Type-C configuration channel
CC pins and functionality
•
•
•
•
Attach/Detach detection
Determination plug orientation
Initial port role determination
USB PD Type-C communication (for PD)
•
•
Modification of initial port roles
Negotiation of USB PD power contracts
• Management of functional extensions (for PD)
•
9
Structured vendor-defined messages (VDM)
November 10, 2015
Agenda
•
Introduction to the Type-C Standard
•
Ecosystem, Market View, Applications
•
System Solution for USB Type-C Connector
•
NXP Solutions Advantage
10
November 10, 2015
Ecosystem illustration
•
NXP offers USB Type-C solutions in:
• Systems
• Cable and dongle adaptors
• AC/DC power adaptors
USB PD
Power
Adaptor
Contrast
Type-C
USB PD
Type-C
Type-C
USB PD
power
adaptor
Type-C
USB PD
Type-C
USB PD
Type-C
Type-C
Vbus
Type-C
USB PD
Type-C
Battery
Charging
11
November 10, 2015
Brightness
Type-C
Ecosystem illustration (I)
•
NXP offers USB Type-C solutions in
• Systems
• Cable and dongle adaptors
• AC/DC power adaptors
USB PD
Power
Adaptor
Contrast
Type-C
USB PD
Type-C
Type-C
USB PD
power
adaptor
Type-C
USB PD
Type-C
USB PD
Type-C
Type-C
Type-C
Type-C
USB PD
Type-C
Battery
Charging
12
November 10, 2015
Brightness
Type-C
Devices available in the market today
13
November 10, 2015
Agenda
•
Introduction to the Type-C Standard
•
Ecosystem, Market View, Applications
•
System Solution for USB Type-C Connector
•
NXP Solutions Advantage
14
November 10, 2015
System solution for USB Type-C connector
with PD and Alternate Mode support
Load switches
USB PD PHY
Authentication
Type-C Pinout
Microcontroller
High-performance
switches
Signal conditioner
Audio
codec
15
November 10, 2015
I/F Protectors
System
chipset
VBUS
VCONN
USB 2.0
USB 3.0
CC Logic
SBU
USB
Type-C
System solution for USB Type-C (15W)
with USB 3.1 support
Load switches
Type-C CC Logic
device
Type-C Pinout
VBUS
2:1 USB 3.1
switch
Signal conditioner
Audio
codec
16
November 10, 2015
I/F Protectors
System
chipset
VCONN
USB 2.0
USB 3.0
CC Logic
SBU
USB
Type-C
System solution for USB Type-C (15W)
with USB 2.0 support
Load switches
Type-C CC Logic
device
Type-C Pinout
VBUS
I/F Protectors
System
chipset
VCONN
USB 2.0
USB 3.0
CC Logic
SBU
17
November 10, 2015
USB
Type-C
USB POWER
DELIVERY
PHY AND CC LOGIC
DEVICE
USB Type-C PD PHY and CC logic controller
PTN5150
PTN5100
CC logic
PD PHY
IH
VBUS_DET
ID
ADR/CON_DET
VDD
IM
CC1
ID
Rd
CC Level Detection
and Indication
EXT_SEL_2
IH
VDD
IM
CC2
ID
Rd
PORT
Role (Host/Device/
Dual) Control
DEVICE CONTROL AND MANAGEMENT
SCL
SDA
INTB
Type-C CC logic, legacy
USB, OTG
19
November 10, 2015
Alternate Mode & USB
Power Delivery
PTN5100 – USB Type-C PD PHY IC
•
Application: USB Power Delivery
•
Works with NXP, 3rd-party PD controller or
embedded controller
•
Power control and functions
•
•
•
•
•
PD-PHY functions
•
•
•
•
VBUS (3.7 - 28V) for local supply
Integrated VCONN switch
LDO for dead battery startup
VBUS & VDD power input switch
Type-C cable/plug detection and indication (host, device and
dual-role modes)
USB PD baseband PHY - BMC, 4B5B, Preamble, SOP, SOP’,
SOP’’ and EOP generation/reception, CRC generation/check,
GoodCRC response
I2C or SPI slave interface
NXP PD kernel firmware
•
•
Shipped with NXP LPC11xx series
Licensing option available to run on 3rd-party MCU
•
Package: HVQFN20, 4 x 4 mm, 0.4 mm pitch
20
November 10, 2015
Sampling Now
PTN5150A – CC logic device
•
PTN5150A is a USB Type-C CC logic chip
•
•
•
•
•
Advertise DFP/DRP/UFP
•
•
•
Comply to USB Type-C Rev 1.1
Support I2C mode
Support non I2C mode
Work with PTN36043 (USB 3.0 Active Switch)
DFP Rp = 80/180/330 µA
UFP Rd = 5.1KΩ
Autonomous detects the following:
•
•
•
•
•
CC1/CC2 orientation
VCONN power
Power accessories
Analog audio accessories
Hardware debug accessories
•
Supports dead battery mode
•
Ultra small footprint: HVQFN12, 1.6 x 1.6 mm
Sampling Now
21
November 10, 2015
PTN5150 system application
•
Supports USB OTG, USB 3.0 Connection Flip, USB Type-C Fast
Charging and Vconn Power Enable
Charger detect
USB Power
Delivery
VBUS
USB 3.0 switch
I2C
ID
22
November 10, 2015
PTN5150
CC Control Logic
I/F Protectors
System
chipset
VCONN (CC) USB
Type-C
USB 2.0
USB 3.0
CC Logic
SBU
USB TYPE-C
SWITCHES
What is a signal switch and why NXP?
•
What is a signal switch?
•
•
Why is it needed?
•
•
Provides signal multiplex or de-multiplex function to redirect transmitted signals to
same connection port (multiplex switch) or different connection ports (de-multiplex
switch)
For Type-C connector to support “Alternate Mode” or “plug flippable” functions, either
multiplex or de-multiplex switch function will be used; sometimes these functions
combined to become a cross-point switch
Why NXP?
•
•
Signal switch has no signal regeneration function, it works at transistor level to redirect
the passed signal; switch architecture highly impacts bypassed signal integrity
NXP signal switches provide best-in-class high performance features:
•
•
•
•
24
High signal bandwidth
Low return loss
Low crosstalk
Low jitter disturbance
November 10, 2015
Switches overview for USB Type-C applications
CBTL02043/PTN36043
A0_P
B0_P
A0_N
B0_N
A1_P
B1_P
A1_N
B1_N
CBTL04GP043
CBTL08GP053
Computing
Computing &
Docking
C0_P
C0_N
C1_P
C1_N
SEL
XSD
VDD=1.8V
line driver
TX_CON_1+
TX_CON_1-
PTN36043
RX
TERMINATION
DETECTION
equalizer
TX_AP_+
TX_AP_-
line driver
TX_CON_2+
TX_CON_2-
EMPHASIS
FILTER
Signal Detection
line driver
RX_AP_+
RX_AP_-
equalizer
RX_CON_1+
RX_CON_1-
EMPHASIS
FILTER
RX
TERMINATION
DETECTION
Signal Detection
equalizer
RX_CON_2+
RX_CON_2-
DEVICE CONTROL AND MANAGEMENT
SEL
CH1_SET1
(RxDE)
CH1_SET2
(TxEQ)
CH2_SET1
(TxDE)
CH2_SET2
(RxEQ)
Mobile & Portable
25
November 10, 2015
Analog switches for sideband signal control
•
Key value
•
•
•
•
•
•
Configuration
RON
(Ω)
f3dB
(MHz)
NX3L2T66
Dual SPST
0.75
60
XSON8,
XQFN8
NX3DV221
Single DPDT
4.0
1000
XQFN10,
HVSON10
NX3DV42
Single DPDT
4.0
950
XQFN10
NX3DV3899
Dual DPDT
2.4
200
XQFN16,
HXQFN16U
Part number
Wide operating voltage range
Low RON/capacitance combination
High isolation, low crosstalk for
superior signal integrity
Built in level shifter option for control pin
Low current consumption for higher
power savings
Small footprint Picogate, MicroPak,
ThinQFN
NX3DV42
NX3DV221
Package
NX3DV3899
NX3L2T66
AUX+
SBU2
SBU1
SBU2
AUX-
SBU2
Type-C Port
SBU1
SPST
SPST
DPDT
DPDT 2x
SBU1
Now in Production
Application Example
26
November 10, 2015
SIGNAL
CONDITIONER
USB 3.0 RE-DRIVER
What is a USB signal conditioner and why NXP
•
What is a USB signal conditioner?
• An active signal regenerator which utilizes equalizer and amplifier to reshape
bypassed signal to remove jitters and reopen the differential signal eyes for
longer channel transmission and reduce the bit error rate
•
Why is it needed?
• Type-C connector use case would need to transmit or receive USB3 signals
through connector, Type-C switch and long trace length. The USB3 redriver
can improve the signal eye diagram, extend the link distance and help to
pass compliance test.
•
Why NXP?
• NXP provides complete selection of USB 3.0 signal conditioners including
single-, dual- and quad-channel configurations in different packages.
• High performance features incude:
•
•
•
28
Programmable equalizer and amplitude settings
Ultra low active and standby power consumption
Small outline packages
November 10, 2015
USB 3.0 re-drivers
•
Single and dual-port options
•
5-Gbps bandwidth
DESCRIPTION
BANDWIDTH
SETTINGS
POWER SAVING
PART#
5 Gbps
5-state
quinary pins
OS
EQ
DE
53 mW @ U2/U3
20 mW @ No Connect
10 mW @ Sleep mode
PTN36241B
USB 3.0
Dual Port
5 Gbps
binary pins
OS
EQ
DE
66 mW @ U2/U3
26 mW @ No Connect
0.5 mW @ Sleep mode
PTN36242L
USB 3.0
Half Port
(Single Channel)
5 Gbps
adjustable RX equalization,
TX de-emphasis & output swing
active: 97 mW (54mA)
deep power saving: 18 µW (10 µA)
PTN36221A
USB 3.0
Single Port
5 Gbps
adjustable RX equalization both
channels, TX de-emphasis &
output swing
USB 3.0
Single Port
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November 10, 2015
PTN36241G
MICROCONTROLLERS
Using microcontrollers (MCUs) in USB Type-C
•
Why are MCUs needed in USB Type-C?
•
•
•
•
•
•
Power negotiation
Proper timing and response
Support for different protocols and switching
Spec compliance
Authentication
Why NXP?
• Broad range of small, power-efficient MCUs with ample performance for
handling power & protocol functionality
•
Potential BoM cost reduction by merging any additional design requirements other than TypeC into MCU
• In house USB-PD firmware
• Fully compliant, total solutions for system and accessory products
31
November 10, 2015
Usecases, configuration & firmware features
Use case
Configuration
System standalone
PTN5100 + LPC1115
Desktop PC, laptop, notebook
Tablet, smartphone
Accessories (USB based)
Cable adaptor / dongle
PTN5100 + LPC11U35
Power adaptors
AC-DC
PTN5100 + LPC1115
32
November 10, 2015
PD firmware features
• PD v2.0 provider/consumer role
• Alternate mode support & high-speed switch
(HS) control
• Load switch control
•
•
•
•
•
PD v2.0 provider/consumer role
Alternate Mode & HS switch control
Load switch control
Billboard device support
USB DFU SBL for firmware update with
security protection
• PD v2.0 provider role only
• AC-DC voltage control IO
USB Type-C: System ‘standalone’ solution
Load switches
USB PD PHY
Authentication
I2C
LPC1115 MCU
High-performance
switches
Signal conditioner
Audio
codec
33
November 10, 2015
VBUS
I/F Protectors
System
chipset
Type-C Pinout
VCONN
USB 2.0
USB 3.0
CC Logic
SBU
USB
Type-C
ARM
CORTEX-M0
Up to 50 MHz
AHB-LITE Bus
LPC1115FET48/CP3336 MCU –
for System standalone solution
High-Speed GPIO
Up to 42
8kB
SPI (2)
16-bit Timers (2)
I2C
APB Bus
32-bit Timers (2)
MCU features
RAM
12MHz, 1% IRC osc.,
Watchdog osc., 1-25 MHz
System osc., System PLL
SYSTEM
•
64kB
Clock Generation Unit
PMU, power modes, BOD,
single Vdd power supply, POR
For products such as:
computers, tablets, phones, and
AC/DC power adaptor
Flash
ROM
Power Control
•
UART
SERIAL INTERFACES
• Power-efficient ARM Cortex-M0
core (50 MHz)
• 64 KB Flash, 8 KB RAM
• 10-bit ADC
• 42 GPIO
• Small size
•
TFBGA48 (4.5 x 4.5 x 0.7mm)
WWDT
ADC
Systick Timer
8-channel, 10-bit
TIMERS
ANALOG
Now in Production
34
November 10, 2015
USB Type-C: Accessory solution
Type-C Pinout
VBUS
VBUS
USB 2.0
USB 3.0
CC Logic
DC/DC
Billboard
& DFU
USB PD PHY
PTN5100
I/F Protectors
VCONN
I/F Protectors
USB
Type-C
plug
VCONN
USB 2.0
USB 3.0
CC Logic
RFU
RFU
MCU
LPC11U35
Authentication
35
November 10, 2015
Cable adaptor
Responder
Cable PHY and
protocol IC
USB
Type-C
plug
LPC11U35FHI33/CP3337 MCU –
for Type-C Accessory solution
Flash
Up to 50 MHz
•
MCU features:
12 kB
EEPROM
4 kB
Up to 26
ROM
Clock Generation Unit
Bridge
12MHz, 1% IRC osc.,
Watchdog osc., 1-25 MHz
System osc., System PLL
SSP (2)
Power Control
PMU, power modes, BOD,
single Vdd power supply, POR
I2C
APB Bus
32-bit Timers (2)
For products such as:
DisplayPort dongles, docks, etc.
RAM
High-Speed GPIO
SYSTEM
•
64 kB
AHB-LITE Bus
ARM
CORTEX-M0
USART/
SMARTCARD
SERIAL INTERFACES
16-bit Timers (2)
• Power-efficient, ARM Cortex-M0
core (50 MHz)
• 64 kB Flash, 12 KB RAM
• Integrated 4 KB EEPROM
• USB 2.0 (Full Speed)
• 10-bit ADC
• 26 GPIO
• HVQFN33 (5 x 5 mm)
USB FS (& PHY)
WWDT
ADC
Systick Timer
8-channel, 10-bit
TIMERS
ANALOG
Now in Production
36
November 10, 2015
Firmware kernel architecture
•
Advantages:
•
•
•
Flexibility: firmware-based architecture for a variety of applications
Reliability: 100% compliance with Ellisys Compliance Tester
Expandable: multi-port USB Type-C support
LPC11U35 MCU
Application Layer
System Manager
USB3.0
USB
Billboard
VDM
Type-C
DFU
SBL
(device firmware update)
(w/security)
Config
Alternate Mode
USB PD Device Policy Manager
Display
(Up to 20V/5A)
(To system)
USB PD Policy Engine
Drivers
Type-C
(Charge-thru)
SPI
PTN5100 #1
37
November 10, 2015
SPI
PTN5100 #2
LPC11U35 firmware update
•
For onboard programming, USB In-Systems Programming (ISP) mode
can used by pulling PIO0_1 low and PIO0_3 high when powering the
MCU
• MCU will enumerate as a Mass Storage Class device
•
To enable firmware updates in the field for accessories, a device
firmware update (DFU) secondary bootloader (SBL) is available
•
•
•
•
•
DFU is a standard USB class used to update firmware
SBL is a bootloader residing in user flash facilitating firmware update
Optional security mode to automatically decrypt incoming FW updates
Will reject invalid application images
SBL always calculates CRC of application image to check code integrity
•
DFU also needs to be enabled in the application code to switch context
from application to SBL
38
November 10, 2015
dfu-util tool
Image creator tool
LPC11U35 firmware update tools
39
Creates a factory image: SBL + application image
Encrypt application image with 128-bit symmetric encryption algorithm
Enable Code Read Protection
Generate and insert CRC checksum into application code
Triggers a context switch from application code to DFU SBL
Communicates with the DFU SBL to send the updated firmware
November 10, 2015
Use Case: 1-to-1 adapter
For Type-C to [ DP or VGA or HDMI or DVI ]
•
1-to-1 VGA adapter solution
•
•
•
•
Power-efficient ARM Cortex-M0 processor for main control
Billboard support
Security firmware update
Spec compliance
VBus/Vconn
Power
Management
USB 2.0 FS
Type-C
CC1
plug
PD PHY
PTN5100
Authentication
*Option
SPI
NXP Type-C firmware
-System management
-PD Policy
-Alternate mode
-Billboard & DFU
-Security Boot Loader
MCU
LPC11U35
3.3V
I2C
VGA Converter
PTN3355
RX2 +/-, TX2 +/-
Available Now
40
November 10, 2015
VGA
plug
Use Case: 1-to-3 multiport adapter
For Type-C to [ Type-C and USB (3.0 or 2.0) and (DP or VGA or HDMI) ]
•
1-to-3 multiport adapter solution
•
•
•
•
•
Power-efficient ARM Cortex-M0 MCU for main control
Billboard support
Security firmware update
VBus/Vconn
Power
Spec compliance
Management
Expandable: 1 MCU
USB 3.0/2.0
controls 2 PD PHY
USB Hub
Type-C
plug
NXP Type-C firmware
-System management
-Power management
-PD Policy
-Alternate mode
-Billboard & DFU
-Security Boot Loader
USB
Type-A
USB 2.0 FS
CC1
PD PHY
PTN5100
MCU
LPC11U35
SPI
3.3V
Authentication
*Option
SPI
PD PHY
PTN5100
Type-C
plug
CC
I2C
VGA Converter
PTN3355
RX2 +/-, TX2 +/-
Available: Nov 2015
41
November 10, 2015
VGA
plug
USB LOAD
SWITCHES
What are USB Type-C load switches and why NXP?
•
What is the Type-C load switch product?
• Advanced unidirectional N-channel power switch designed to automatically
isolate a system from a faulty source or load. It includes under-voltage
protection, reverse current protection, over-temperature protection,
programmable over-voltage protection, and/or programmable current limit.
•
Why is it needed?
• Type-C load switches provide protection for two main use cases:
•
•
•
Consumer/charging a notebook: load switches protect system from OVP surges from faulty
wall adapter or external supply, and reverse connector plug-in
Provider/notebook powering an external load (e.g. On-The-Go): load switch protects system
from overcurrent, short circuits, and reverse currents caused by a faulty load or upside-down
connector plug-in
Why NXP?
• NXP provides simple to implement, yet robust and affordable solutions in a
variety of packages
43
November 10, 2015
USB Type-C power paths
5.0 V / 3.0 A
12 V / 3.0 A
20 V / 5.0 A
Type-C Connector
Vbus
NX20P5090 – 20V/5A OVP load switch
Battery
charger /
PMU
3.0 A / 5.0 V
OTG 5V
regulator
Power delivery path
Charging (consumer)
Supplying, OTG (provider)
NX5P3090 - 3 A current limiting load switch
NX5P2190 – 2 A current limiting load switch
44
November 10, 2015
NX5P2190/2290: load switch with OVP/OTP
Eliminates repeated on/off at startup
due to high cap load inrush
•
Isolates VBUS voltage source from interface
pin during over-current or over-temperature
events
•
Externally adjustable current limit; output
voltage detect, OVP, OTP, and fault
indicator
•
Used in power domain isolation applications
to reduce power dissipation and extend
battery life
•
After power up, if switch current limit is
reached NX5P2190 will drive the max
current for 7.4ms, and then turn on a 10mA
current source, while NX5P2290 will clamp
the output current at ILIM until OTP kicks in.
•
Package: WCSP9, 1.4 x1.4, 0.4mm pitch
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November 10, 2015
Features:
 Operates from 3.0 to 5.5 V
 Low ON resistance: RON typ 60 mΩ
 VBUS 30V Tolerant
 Short circuit protection
 OVLO and UVLO protection
 Adjustable current limit: 200 mA to 2 A
 Over-temperature protection at 125 ⁰C
 Reverse bias current protection
 Soft start turn-on, slew rate controlled
 ESD: IEC61000 contact discharge exceeds 8kV
NX20P5090: 5A programmable OVP power switch
•
5.0A capable power switch with programmable overvoltage protection. OVLO is programmed via pulldown resistor.
•
Includes under-voltage protection, reverse-current
protection, and over-temperature protection. During
fault condition, device opens to protect the load.
•
Supports USB-PD Type C and power domain
isolation applications with high supply current
•
Slew rate control with 15ms debounce time46.before
the switch turns on
•
Enable input integrates voltage level translation,
making device compatible with low voltage
processors
•
WLCSP15 1.6 x 2.6mm; 0.5mm pitch
Features
 Operates from 2.5 to 20 V.
 Low RO: typ 30 mΩ
 30V tolerant VINT/VBUS pins
 Reverse current protection
 Programmable over-voltage protection
 Under voltage protection (2V)
 Over-temperature protection @125C
 1.8V control Logic to enable/disable
 Slew rate control with 15 ms debounce
Available Now
46
November 10, 2015
AC/DC
CONVERTER
What is USB Type-C AC/DC solution and why NXP?
•
What is the USB PD / Type-C AC/DC solution?
• NXP’s high efficient GreenChip QR/DCM Flyback controller TEA1836 in
combination with NXP’s Synchronous Rectifier TEA1892 guarantee highest
possible efficiency combined with very low stand-by power.
•
Why is it needed?
• Multiple output voltages as defined in the USB-PD standard provide a
challenge to meet energy regulations like Energy star, the US Department of
Energy (DoE) regulation and the European Code of Conduct (CoC). NXP’s
GreenChip solutions help to meet those requirements.
•
Why NXP?
• NXP has a proven track record on high efficiency, low-power standby
solutions in Power Supplies and is once more leading the industry with the
current offering of the TEA1836 & TEA1892.
48
November 10, 2015
Smart Power platform
Gen II wall charger for USB-PD (captive cable)
TEA1993
VBus
Synchronous
Rectifier Controller
TEA1903
TEA1936
USB
Type-C
Fixed Cable
& Plug
CC1
CC2
Integrated USB PD
Secondary Side Controller
Gnd
Opto / comm
Primary controller Flyback Quasi Resonant
Support configurable outputs
Optimized for lower output voltages
TEA1936, TEA1992 & TEA1903 Sampling Oct 2015
49
November 10, 2015
AUTHENTICATION
What is the USB Type-C Authentication Solution
and why NXP?
•
What is the Type-C Authentication Solution?
• Tamper resistant highly secure authentication solutions to verify that Type-c
peripherals , cables etc. really belong to specific OEM, enabling safe
solutions and prevent counterfeiting.
•
Why is it needed?
•
•
•
•
•
Enables licensing revenue protection (anti counterfeiting / anti cloning)
Guarantees peripheral’s safety
Brand and IP protection.
Enables new use cases (DRM protection, fast & safe charge)
Why NXP?
• NXP is the market leader in Secure Identification IC solutions providing
strongest levels of market-proven and certified security, common-criteria
certified design environment, production facilities and secure
personalization/key insertion per die.
51
November 10, 2015
INTERFACE
PROTECTORS
What is USB Type-C Interface Protection Solution
and why NXP?
•
What is the Type-C Interface Protection Solution?
• NXP offers ESD protection and Common Mode Filters with integrated ESD
protection for the new USB Type-C connector.
•
Why is it needed?
• ESD protection is required to achieve system-level ESD robustness, since
USB is an external interface. Common Mode Filters are needed to avoid
interference between SuperSpeed USB and the overlapping GSM/LTE/WiFi
frequencies, which are needed for wireless connectivity of portable devices.
•
Why NXP?
• NXP offers ESD protection, which offer a unique combination of supporting
RF signal integrity as well as true system-level ESD. NXP’s Common Mode
Filters offer an extremely wide-band Common Mode suppression to cover
strong rejection of all critical noise frequencies.
53
November 10, 2015
Agenda
•
Introduction to the Type-C Standard
•
Ecosystem, Market View, Applications
•
System Solution for USB Type-C Connector
•
NXP Solutions Advantage
54
November 10, 2015
NXP USB Type-C advantage
•
NXP offers complete set of USB Type-C solutions. Most of
competitors only offer products in only one or two categories
•
•
•
•
•
USB Type-C CC logic + PHY (PTN5100)
USB PD Controller with PD firmware (LPC1115)
Hi-Speed USB and DisplayPort Switch (CBTL08GP053)
20V load switch (NX20P5090)
ESD protection device
•
NXP provides reference design guides to help customer address
any USB Type-C design requirement and challenges
•
NXP PD controller and firmware
• Customer can buy our full turn key solution (LPC1115 preprogrammed with
USB PD firmware)
• Request firmware porting service
•
NXP provides interop testing to prepare customers get ready for
USB/IF compliance testing
55
November 10, 2015
USB TYPE-C
PRODUCT
SUMMARY
USB Type-C product status overview
Part Number
HIGH-SPEED SIGNAL SWITCHES
Status
CBTL02043
Two differential channel 2:1 Mux-Demux switch
Production
CBTL04GP043
Dual channel 2x2 crosspoint switch
Production
CBTL08GP053
USB Type-C High performance Crossbar Switch
Part Number
ANALOG SWITCHES (sideband signal control)
Sampling - Now
MP - Oct’15
Status
NX3L2T66
Dual SPST analog switch (0.5 ohm, 60 MHz)
Production
NX3DV3899
Dual DPDT analog switch (4.5 ohm, 200 MHz)
Production
NX5DV715
Dual DPDT analog switch (4.0 ohm, 500 MHz)
Production
NX3DV221,
NX3DV42
Single DPDT analog switch (4.0 ohm, 950MHz)
Production
Part Number
USB RE-DRIVERS
Status
PTN36221A
Single channel USB3 Redriver
Production
PTN36241G
Dual channel USB3 Redriver, smaller package, low power for mobile
Production
PTN36001
Dual channel USB3 Redriver. Smaller package for computing.
Production
PTN36043
USB3.1 Active switch with redriver
Part Number
USB PD-PHY and CC-LOGIC CONTROLLERS
Sampling - Now
MP – Oct’15
Status
PTN5100/PTN5100D/
PTN5100A/PTN5100DA
Type-C PD PHY and Protocol IC
Sampling – Now
MP – Dec’15
PTN5150/50A/50H
Type-C CC Logic IC
Sampling – Now
MP - Nov’15
57
November 10, 2015
USB Type-C product status overview (continued)
Part Number
USB LOAD SWITCHES
Status
NX5P2190
2A load switch with OCP / OVP / OTP
NX20P5090
5A programmable OVP power switch
Sampling – Now
MP - Oct’15
NX5P3090
3A adjustable current limit power switch
Sampling – Sep’15
MP – Jan’16
NX5P3190
3A adjustable current limit power switch with OTP and CC logic
Sampling – Feb’16
MP – Apr’16
Part Number
AC/DC CONVERTERS
TEA1836 / TEA1892
45W wall plug AC/DC converters
TEA1993
Gen II Synchronous Rectifier controller
Part Number
Production
Status
Production
Sampling – Now
MICROCONTROLLERS
MP – Feb‘16
Status
LPC1115
Low cost, low power microcontroller
Production
LPC11U35
Low cost, low power microcontroller with integrated EEPROM and USB
Production
LPC54101/54102
Lowest power standalone microcontrollers
Production
58
November 10, 2015
USB Type-C product status overview (continued)
Part Number
A7101
Part Number
Tamper resistant, highly secure authentication solution for Type-C
INTERFACE PROTECTION AND FILTERING
Status
Production
Status
PUSB3FR4
4-line protection device with ultra-low clamping, new TrEOS Protection
Production
PUSB3FR6/..AB6
6-line protection devices with ultra-low clamping, new TrEOS Protection
Production
PESD5V0x1BSF/USF
1-line protection devices with ultra-low clamping, new TrEOS Protection
Production
PCMFxUSB3S
Common mode filter with new TrEOS ESD protection for USB3.1;
1, 2 and 3 line pairs, plus ESD-only in the same footprints
Sampling now
MP – Oct’15
PTVSxxVZ1USKN
1-line 1200 W 8/20 Vbus TVS surge protection in extremely compact
DSN1608-2, different voltage grades available.
Sampling now
MP – Oct’15
Part Number
PMPB27EP
PMPB13XNE
PMXB43UNE
PMXB75UPE
PMDXB600UNE
PMZB600UNE
PMCXB900UE
PMDXB950UPE
PMZB950UPE
59
AUTHENTICATION
November 10, 2015
MOSFETs
low RDSon load switches and low VGSth signal conditioning
Status
30V P-channel FET, 24mOhm in DFN2020MD-6
Production
30V N-channel FET, 13mOhm in DFN2020MD-6
Production
20V N-channel FET, 42mOhm in DFN1010D-3
Production
20V P-channel FET, 85mOhm in DFN1010D-3
Production
20V N-channel FET, 620mOhm in DFN1010B-6
Production
20V N-channel FET, 620mOhm in DFN1006B-3
Production
Complementary 20V N/P-channel FET, 1400mOhm in DFN1010B-6
Production
20V P-channel FET, 1400mOhm in DFN1010B-6
Production
20V P-channel FET, 1400mOhm in DFN1006B-3
Production