welcome to the texas instruments new product update...programmability eeprom otp otp otp diy pmic...
TRANSCRIPT
TI Information – Selective Disclosure
Welcome to the Texas Instruments New Product Update
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TI Information – Selective Disclosure TI Information – Selective Disclosure
Industrial PMIC update
Shashank Sharma
Product Marketing Engineer
April’2020
2
TI Information – Selective Disclosure
Board Space Time to Market Reusability
3
Customer Challenges solved by TI PMICs
TI Information – Selective Disclosure
Time to market solved by TI PMIC
SILICON SOFTWARE
TOOLS
& KITS
SUPPORT
TI DESIGNS TRAINING
ECOSYSTEM
PARTNERS
Ti.com
PMIC
Training
Quick learning with
Web-based to
hands on workshops
TI Designs Reference Design
Available for most SoCs and
FPGAs For Quick Design Start
Silicon
Immediately meet most
application needs with
More than 170+ PMICs
Development Kits
All the hardware you
need to get started right
out of the box
GUIs and Drivers
Common GUIs and Linux Drivers
for quick time to market
Eco Partners
Immediate Solutions
availability with TI
SoCs, Non-TI SoCs and
FPGAs
TI Information – Selective Disclosure
Reusability of PMICs in Industrial
TPS650250
TPS65023B
TPS65216
LP8733xx
TPS65218xx
TPS65916
TPS659037
TPS65086x/94
AMIC110, AM335x
AMIC110, AM335x,
AM437x, AM438x i.MX6, i.MX7, i.MX8
i.MX6, i.MX7
AM570x
AMIC110, AM335x
PMIC
LS10xx, LS20xx
AM571x, AM572x,
AM574x
TMS320C55x
Hardware
Software
Paper design
Zynq-7000, Spartan-7,
Artix-7, Zynq UltraScale+
Zynq-7000
Zynq UltraScale+,
Artix-7, Versal
i.MX8
AM570x, AM571x
Supporting Material
Powering TI Processors for Industrial
6
AM335x, AMIC1x, AM437x
AM57x AM65x
• Reference designs
• AM335x, AM437/8x with TPS65218D0
• AM335x, AMIC1x with TPS65216
• AM335x with TPS65910
• AM335x with TPS65217
• AM335x with TPS650250
• TI PMIC benefits:
• Software and hardware provided to
speed up the design process
• Digital voltage scaling options to reduce
power consumption
• Refreshed portfolio with new pricing
strategy and spin to compete against low-
cost discrete
• Example EEs
• Reference designs
• AM570x with LP8733+LP8732
• AM570x with TPS65916
• AM571x/2x/4x with TPS659037
• TI PMIC benefits:
• Software and hardware provided to
speed up the design process
• Digital voltage scaling options to reduce
power consumption
• High efficiency DCDCs (>90%) for
additional reduced power consumption
• Example EEs
• New PMICs in Roadmap
•TPS6594x+LP8762x samples planned for
the AM65x functional safety use case
around 1Q/2Q20
• TI PMIC benefits: • PMICs include features enabling up to SIL-3 Industrial functional safety
• Scalable power solutions and software reusability help reduce the design burden as they scale across processor family variants
• High switching frequency reduces the size and cost of external components
• Example EEs
Data concentrators, IoT Gateways, Industrial Robots, PLC/HMI Data concentrators, Industrial Communications, Industrial Robots, PLC/HMI Data concentrators, Single Board Computers, Industrial Robots, PLC/HMI
TI Information – Selective Disclosure
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Feature TPS65216 TPS650250 TPS65910 TPS65217 TPS65218D0
Topology 4 DCDCs / 1 LDO 3 DCDCs / 2 LDOs 3 DCDCs / 9 LDOs 3 DCDCs / 4 LDOs 6 DCDCs / 1 LDOs
Speed Grade Supported 300/600/720/800/1000 MHz
AMIC11x 300/600 MHz 300/600/720/800/1000 MHz 300/600/720/800/1000 MHz 300/600/720/800/1000 MHz
Other features • 1 load switch (500mA)
• Power fail comparator
• Supports warm-reset
• I2C interface
• Power-fail comparator
• 1 additional 30-mA LDO with
independent EN
• 5V boost (100mA)
• 2 x I2C interface
• 1 internal RTC LDO
• 2 LDOs can be configured as load
switches
• WLED driver (up to 20 LEDs)
• I2C interface
• 3 load switches
• 1 Buck-Boost
• Power-Fail comparator
• Supports warm-reset
Vout (Max) (V) 3.4 5.6 3.3 3.3 3.4
Iout (Max) (A) 1.8 1.6 1.5 1.2 1.8
Charger NO NO NO Linear w/ Power-Path NO
RTC NO NO
Requires external LDO
YES
Coin-cell input for RTC backup
NO NO
uP DCDC to power AM335x RTC
Voltage Range 3.6–5.5V 2.5–6.0V 2.7–5.5V 2.75–5.5V
20V tolerant
2.75–5.5V
Dynamic Voltage Scaling YES NO YES YES YES
Supervisor YES
(+/-4%, +/- 5%)
NO NO NO YES
(+/-4%, +/- 5%)
Power sequencing YES
NO
Requires external enable circuit
YES YES YES
Temperature range –40–105C –40–85C / –40–125 (Q1) –40–85C –40–105C –40–105C
Memory support LPDDR1, DDR2, DDR3/3L LPDDR1, DDR2, DDR3 LPDDR1, DDR2, DDR3 LPDDR1, DDR2, DDR3, DDR3L LPDDR1, DDR2, DDR3/3L
Package 48-pin QFN
6x6mm2, 0.4-mm pitch
32-pin QFN
5x5mm2, 0.5-mm pitch
48-pin QFN
6x6mm2, 0.4-mm pitch
48-pin QFN
6x6mm2, 0.4-mm pitch
48-pin QFN
6x6mm2, 0.4-mm pitch
Reference design Releasing 1Q19 Link Link Link Link
Hardware design N/A TIDA-00299 TIDEP0003 BeagleBone TIDEP0024
Key advantage Cost optimized Extended Temp support Most integrated Battery charger Lowest power modes
AM335x/ AM43xx Power Solutions
Please refer to AM335x PMIC selection guide TI Information – Selective Disclosure
TI Information– Selective Disclosure
`
TI Industrial PMICs NXP XILINX
TI PMICs powering NXP and Xilinx SoCs ti.com/SoCpower
i.MX 8M Mini & Nano TIDA-050038
3rd party VVDN
SOM Board
Tech Note
i.MX 7D TIDA-050034
3rd party VVDN
SOM Board
Tech Note
i.MX6 Ref. Design (i.MX6ULL / UltraLite)
- SOM Board (coming soon)
Tech Note (ULL)
Tech Note (Solo)
Zynq-7000 TIDA-00478
User guide
Artix®-7
Spartan®-7
Zynq®-7000 TIDA-050000
Tech Note
Zynq® UltraScale+ ZU2CG–ZU5EV
TIDA-01480
TIDA-01393
Tech Note Distribution partner - Arrow also provides programming
services: DIY PMIC arrow.com/manufacturing/
DIY PMIC
TPS6521815 Datasheet
Training video
TPS650861 Datasheet
Training video
8
TPS6521815 socketed on
BOOSTXL-TPS65218
TI Information – Selective Disclosure
User programmable
• Program the internal memory of these
advanced PMICs to customize them for
an application
• Flexible settings include
Output voltages
Voltage monitoring thresholds
Sequencing
GPIO control
• Do it yourself or contact Arrow
programming services
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Powering NXP i.MX6 (Solo, DualLite, ULL)
TPS6521815
TI Information – Selective Disclosure
Powering i.MX7D with TPS6521815
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Tools & Resources
Target Applications
Features
Benefits
TIDA-050034 Integrated power supply reference design for NXP i.MX 7D processor
Released
• Shows TPS6521815 powering all rails for NXP i.MX 7D
processor
• Comparable to MCIMX7SABRE EVK from NXP
• Reference design can be copied as needed for use in
final application
• Easy-to-implement software provided
• Full system-on-board for rapid development of NXP i.MX
7D & i.MX 7S systems
• Low-power modes & DVFS supported
• Wifi + Bluetooth wireless connectivity
• Ethernet, CAN, USB wired connectivity
• LCD/HDMI/MIPI DSI display options
• Selectable boot options (SD, eMMC, QSPI)
• Data concentrators
• Industrial PC, HMI
• Building Security
Gateway/Intrusion Panels
• HVAC
• EPOS
• TPS65218xx datasheet, LP873347 user guide
• SOM available from Radiumboards.com
• TIDA-050034 Software (Linux Yocto)
TI Information – Selective Disclosure
TI Information – Selective Disclosure
TI PMIC vs NXP (i.MX6, i.MX7 processors)
Feature TI
(TPS6521815)
NXP*
(PF0100)
NXP*
(PF3000)
NXP*
(PF3001) TI System Benefits
Total rails
(channels) 5 14 10 9 i.MX6/7 may only require 5-6 rails: TI solution is optimal size (less $)
>1A DC-DCs 3 Buck, 1 Buck-Boost 5 Buck, 1 Boost 4 3 Buck-boost for VIN operation down to 2.7V
>100mA LDOs 1 6 6 6 Each LDO adds some cost to NXP solutions
Load switches 3 1 LDO Load switches can be used for SD Card muxing and suspend-to-RAM
VIN range 2.7 – 5.5 V 2.8 – 4.5 V 3.1 – 4.5 V 3.1 – 4.5 V Front-end LDO is required when VIN>4.5V in NXP solution
Quiescent current
(from IOFF , ISLEEP) 350 nA, 5 µA 7 µA, 25 µA 7 µA, 25 µA 7 µA, 25 µA TI PMIC offers significant power savings in lowest power modes
Power-fail
detection
(comparator)
Early power-fail detection ensures proper shut-down in TI PMIC
Supervisors (Vout
monitoring)
TI provides under-voltage/over-voltage monitoring for all regulators,
safely shutting down processor 50µs after a fault occurs
Control interface I2C+GPIO I2C+GPIO I2C+GPIO I2C+GPIO All PMICs can support STANDBY operation with GPIO toggle
Programmability EEPROM OTP OTP OTP DIY PMIC (flexible, programmable solution)
Operating temp
range –40 to +105 °C –40 to +105 °C –40 to +105 °C –40 to +105 °C
Package size 6 mm x 6 mm
(36 mm2)
8 mm x 8 mm
(64 mm2)
7 mm x 7 mm
(49 mm2)
7 mm x 7 mm
(49 mm2) Board space saving
* NXP PF0100,PF3000/1 have some special features not listed in this table.
Most of these features are related to coin cell operation and are not critical to the system operation.
Tools & Resources
Target Applications
Features
Benefits
TIDA-050038 Integrated power supply reference design for NXP i.MX 8M Mini & Nano processor
Released
• Shows TPS6521825 + LP873347 powering all rails for
NXP i.MX 8M Mini processor
• Compatible with 8MMiniLPD4-EVM from NXP
• Reference design can be copied as needed for use in
final application
• Easy-to-implement software provided (Linux Yocto)
• SoM for rapid development of NXP i.MX 8M Mini systems
• Low-power modes & DVFS supported
• Wifi + Bluetooth wireless connectivity
• Ethernet, CAN, USB wired connectivity
• MIPI CSI/DSI connectivity
• Selectable boot options (SD, eMMC, QSPI)
• Industrial PC
• HMI
• Building Security
• Smart Appliances
• HVAC
• EPOS
• TPS65218xx datasheet
• TPS65218EVM-100
• IPG-UI software
TI Information – Selective Disclosure
TI Information – Selective Disclosure
TI PMIC vs Rohm vs NXP (i.MX 8M Mini,Nano Processor)
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• NXP PF8121 has many special features not listed in this table. Many of these features are from PF8100/PF8200
that are related to automotive requirements and/or using 2 PMICs to power 1 processor
Feature TI
(TPS6521825 + LP873347)
ROHM (BD71847)
NXP* (PF8121)
NXP
(PCA9450) TI System benefit
Total rails (channels) 11 12 (14) 12 11 TI solution is optimized for the i.MX 8M Mini power rails
>1A DC-DCs 6 6 7 6 TPS6521825 has a buck-boost
LDOs 3 6 4 3
RTC supplies 2 DC-DCs 2 LDOs 1 LDO 2 LDOs PF8121 does not have LDO to power VDD_SNVS at 0.8V
Load switches 3 2 – 1
VIN range 2.8 – 5.5 V 2.7 – 5.5 V 2.7 – 5.5 V 2.85 – 5.5 V At 2.7V or 2.85V, Rohm and NXP cannot generate 3.3V
VIN,CC range (coin cell) 2.2 – 3.3 V – 2.3 – 4.2 V 1.8V + VDO = 1.8V + 500mV = 2.3V
(It is unclear in PF8121 on the useable range of LICELL input)
Quiescent current (from VIN , VIN,CC) 350 nA, 5 µA 15 µA, – 1 µA, 40µA 23 µA, – ROHM, PCA9450 do not operate from coin cell (back up battery)
Power-fail detection (comparator) – – – PFI PFO = early detection of uncontrolled power down
Supervisors (Vout monitoring) Programmable for strict voltage monitoring
Power down active discharge Improves reliability during resets
Coin Cell charger ROHM, PCA9450 does not operate from coin cell
Control interface I2C+GPIO I2C+GPIO I2C+GPIO I2C+GPIO
Programmability EEPROM – TPS6521825,
OTP – LP873347 OTP OTP OTP Flexibility with TPS6521815 (user programmable)
Operating temp range –40 to +105 °C –40 to +85 °C –40 to +85 °C –40 to +105 °C Extended temp. support
Package size 6mm x 6mm – TPS6521825,
5mm x 5mm – LP873347
7 mm x 7 mm
(49 mm2)
8 mm x 8mm
(64 mm2)
7 mm x 7 mm
(49 mm2) TI solution is (61 mm2), which is still smaller than NXP’s PF8121
TI Information – Selective Disclosure
i.MX 8M Mini, low power
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• Targeting cost-effective designs
• Automatic sequencing
• Voltage monitoring on core & non-
core rails
• Up to 3A for Core rails
• Up to 1.8A for SoC, DDR, 3.3V I/O
• 1.6A for 1.8V I/O and 400-mA LDO
for 1.8-V analog
• Load switches for SD card
• High-efficiency DC/DC for RTC
TI Information – Selective Disclosure
3rd-Party Reference Design
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• SOM available from Radiumboards.com
• Compatible with 8MMiniLPD4-EVK
Powering Xilinx & Intel FPGAs for Industrial
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Externally Configurable User-Programmable
• Reference designs
• Xilinx Zynq-7000 with TPS6521815
• Xilinx Zynq UltraScale+ ZU2CG-ZU15EG with TPS65086100
• Altera Cyclone V with TPS651815
• Altera MAX 10 with TPS6521815
• TI PMIC competitive advantages:
• Single PMIC options to power the full power tree
• Integrated power sequencing reduces the total solution size
• Default voltages and sequencing programmable by the customer
or distributors regardless of business case
• Scalable PMICs to power the full family of FPGAs
• Example EEs
• Reference designs
• Xilinx Zynq UltraScale+ ZU2CG-ZU5EV MPSoCs with TPS65023B
• Xilinx Artix-7 FPGA with TPS65023B
• Xilinx Spartan-7 with TPS65023B
• Xilinx Zynq-7000 with TPS65023
• TI PMIC competitive advantages:
• Strategic partnership with Xilinx to define power reference
designs
• Externally configurable output voltages and power-up sequencing
to quickly prototype, design, and scale the power solution
across platforms
• Flexible layout with distributed power solution
• Example EEs
Industrial Robots, Grid Infrastructure, Medical Equipment, Wireless communications, Test and measurement Industrial Robots, Grid Infrastructure, Medical Equipment, Wireless communications, Test and measurement
TI Information – Selective Disclosure
Xilinx ZYNQ FPGAs Overview
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• Recommending 4 PMIC options to power the
Xilinx ZYNQ FPGA family – The TPS65086x family has pre-programmed solutions for
various Xilinx FPGAs (TPS6508640/41/470/401).
– The TPS650861 can be programmed by the customer to
match any of TPS65086x devices, and can be modified as
needed to fit specific use cases
– The TPS65023 solution is a PMIC-and-discrete hybrid
solution that supports the lower variants of the Xilinx FPGAs
– TPS6521815 can be programmed by the customer to support
a more integrated solution for the lower variants
https://www.xilinx.com/products/silicon-devices/soc.html
Xilinx
Family Artix-7 Kintex ZU+ MPSoC CG / EG ZU+ MPSoC EV ZU+ RFSoCs
Device Name Z-7007S / XC7Z007S
Z-7012S /
XC7Z012S Z-7014S /
XC7Z014S Z-7010 /
XC7Z010 Z-7015 /
XC7Z015 Z-7020 /
XC7Z020 Z-7030
XC7Z030 Z-7035
XC7Z035 Z-7045
XC7Z045 Z-7100
XC7Z100 ZU2CG
ZU2EG ZU3CG
ZU3EG ZU4CG
ZU4EG ZU5CG
ZU5EG ZU6CG
ZU6EG ZU7CG
ZU7EG ZU9CG
ZU9EG ZU11EG ZU15EG ZU17EG ZU19EG ZU4EV ZU5EV ZU7EV ZU21DR ZU25DR ZU27DR ZU28DR ZU29DR
TPS65086x
TPS650861
TPS65023
TPS6521815
TI Information – Selective Disclosure
• TIDA-01480
• Design Guide
• Design Files: Schematics,
BOM, Gerbers, Software, etc.
• Device Datasheets:
‒ TPS65023
‒ TPS62067
‒ TPS568215
‒ TPS56C215
‒ TPS22920
TIDA-050000 – Integrated Power Supply Reference Design for Xilinx Artix®-7, Spartan®-7, and Zynq®-7000 FPGAs
• Hardware configurable power solution for scalable FPGA
designs
• Mix-and-match scalability for platform reuse across the Zynq
family of MPSoCs
• Integrated power solution for small designs
• Provides all the power supply rails needed for Xilinx® Artix®-
7, Spartan®-7, and Zynq®-7000 FPGAs
• On board and flexible power up and power down sequencing
• Externally adjustable power solution for scalable platform
reuse
• Design optimized to support 5V input
• Supports memory up to DDR4
Features Benefits
Tools & Resources
• CPU (PLC Controller)
• Machine Vision
• Medical Imaging
• Industrial Robot drives
Applications
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Design Status: Released
TI Information – Selective Disclosure
TIDA-00478
• Schematics / Block diagram
• Test Data
• Design Files: BOM, Gerbers,
Software, etc.
• Device Datasheets:
‒ TPS65218D0
TIDA-00478 – Powering the Xilinx Zynq 7000 series of FPGAs with power management IC reference design
• Compact, integrated power solution for Xilinx® Zynq® 7010
- The total board area including passive components, to
supply the five power rails is just 1.594 in2
• TPS65218D0 has the flexibility to support either DDR3L or
DDR3 memory.
• TPS65218D0 can be run from a single 5-V supply or from a
single cell Li-Ion battery.
• This design is ensured to operate across an industrial
temperature range (-40°C to +105°C).
• Provides 5 supply rails to power the Zynq® 7010 in a compact
1.594 in2 area (includes passive components)
• TPS65218 offers 4 highly efficient DC-DC converters with
integrated FETs and 1 adjustable general purpose LDO
• Includes an integrated, programmable sequencer for flexible
power-up sequencing
• On-chip GPIOs can be programmed to power sequence
additional discrete components, if needed
Qualified for Industrial Applications (-40C to 105C)
This design includes a test report, an EVM guide, and design
files to help accelerate the evaluation process
•
Features Benefits
Tools & Resources
• AC analog input module
• Battery test
• Currency counter
• Desktop PC/motherboard
• Substation automation
Applications
20
Design Status: Released
TI Information – Selective Disclosure
TI Information – Selective Disclosure
“DIY PMICs” User-programmable PMIC introduction
Integrated Power Management
21
TI Information – Selective Disclosure
TI Information – Selective Disclosure
• TI offers a broad portfolio and
easy to use selection of
integrated power solutions to
reduce size and complexity of
power designs for a large variety
of processors and applications.
– 10+ years of PMIC experience
– 200+ PMIC offerings
– 50+ Processors & FPGA supported
• Many hardware configurable,
software configurable, and factory-
programmed PMICs
• Now, User Programmable DIY
PMICs allow for fast prototyping
and easy customization!
“Do It Yourself” PMICs overview
22
For more information visit ti.com/DIYPMIC
HW
Config
SW
Config
Factory
Prog
User
Prog
DVS, I2C, PGOOD, I/O ✔ ✔ ✔ ✔
Internal feedback ✔ ✔ ✔
Operate without MCU ✔ ✔ ✔
Supports multiple SoCs ✔ ✔ ✔
Automatic sequencing ✔ ✔
Non-volatile memory ✔ ✔
User-programmable NVM ✔
TI Information – Selective Disclosure
What are “User-programmable” PMICs?
23
User programmable PMICs are multi rail power management integrated circuits that provide users the
ability to program the non-volatile OTP or EEPROM memory to generate the desired voltages and
sequencing & other special features in as little as 5 minutes!
TPS650861 socketed on
BOOSTXL-TPS650861
TPS6521815 socketed on
BOOSTXL-TPS65218
Easy customization for all No custom requirements are necessary to get a factory-programmed PMIC, which
takes additional time and minimum order quantities.
Reduced external component size and total solution size Smaller IC size and fewer external components- slew rate, voltage levels,
sequencing and other settings programmed into device are normally required for
discrete solutions.
Flexibility to power a wide variety of systems / SoC / FPGAs Same device can be used for multiple designs without PCB layout changes.
Currently have user programming guides for Xilinx, NXP and Altera SoCs.
Rapid prototyping and quick time to market New samples can be generated in seconds. Production programming can be
handled by customer or third party distribution.
Factory-
programming
Board Space
Flexibility
Time to
Market
Problems solved by User-Programmable PMICs
TI Information – Selective Disclosure
BOOSTXL-TPS65218 BoosterPack EVM for TPS6521815 customer programming
Socketed board for testing and programming with new
EEPROM memory configurations of TPS6521815
Voltage supplied by MSP430F5529 LaunchPad no external
power supply needed
IPG-UI offers button controls to program the part in steps
All output rails (DCDC1-6, LDO1, LS1-3) are routed out to
test points for measuring changes in settings
Headers available to supply input from an external DC
supply
Digital control, GPIOs, I2C interface
24
Features
Benefits
Ease of use simple GUI software allows fully programmable
sequencing and output voltages with the click of a button
Speed up development, - new samples can be generated in
seconds
Applications
Industrial PCs (SOM, COM)
Machine Vision
Programmable Logic Controllers
Grid Communications
Medical Equipment
Building security
TI Information – Selective Disclosure
Typical Customer Programmable PMIC Programming Flow
25
Power Map / Reference Design
BOOSTXL-TPS65218
TPS65218EVM
Final Board
1. Identify your system power requirements 2. Load the memory settings into the IPG-UI
and use it to program the TPS65218D0.
Alternatively, any other I2C communication
can be used
4. Test the parts on the EVM
or directly on the final board
3. Program and test the PMIC using the
programming board
IPG-UI
D0
MSP430F5529 LaunchPad is not
included in BOOSTXL-TPS65218
TI Information – Selective Disclosure
Training video for TPS6521815
26
• Link training.ti.com/tps65218d0-user-programming-multi-rail-power-management-ics-pmics
TI Information – Selective Disclosure
DIY PMICs Landing Page ti.com/diypmics
27
Video
Summary
Link to User Programmable PMICs
TI Information – Selective Disclosure
Options to get Programmed Mass Production units
1. Customers can use BOOSTXL kit to program a few samples (5-10) for prototyping
to test the solution
2. Once the memory settings are locked, customer can program the blank
OTP/EEPROM device at their mass production site.
3. Customer can also work with a TI-partnered Disty (Arrow) to program the devices
as per their memory settings for mass production quantities
28
TI Information – Selective Disclosure
Zynq-7000………………………………..TPS65218D0, TPS65023 Externally configurable and user programmable options for simplifying power design for Zynq-7000
Spartan-7, Artix-7………………............………………...TPS65023 Externally configurable PMIC for reducing solution size and simplifying Spartan-7 and Artix-7 designs
UltraScale+………………………………...TPS650861, TPS65023 Default settings programmable for any system regardless of business case
Cyclone V...…………….............................................TPS65218D0
Max 10...………………....………………...….….…...TPS65218D0
PMICs for Industrial Processors
i.MX6…………………………………………….……….TPS6521815 Lower cost and smaller solution size than NXP PMIC
i.MX7…………………………………………..……..….TPS6521815 Lower cost and smaller solution size than NXP PMIC
i.MX8M Mini……………………....................TPS6521825+LP8733 Lower cost and smaller solution size than promoted Rohm PMIC
Layerscape LSXX…………………….………..……..TPS65086100
User Programmable………………............................TPS6521815 Default settings programmable for any system regardless of business case
User Programmable………………………...............TPS65086100 Default settings programmable for any system regardless of business case
Camera Sensor……….…………………………....….…TPS65000 5V input and small solution size for camera sensors
Intel Apollo Lake….........................................................TPS65094 Designed specifically for Intel™ processors providing necessary power, sequencing, and monitoring
AM335x………………....…TPS65218D0, TPS65217, TPS65216 Integrates the necessary voltages and sequencing and fully validated for the AM335x family
AMIC1x………………………………….………...….......TPS65216 Lowest cost PMIC for the AMIC1x family and integrates necessary voltages and sequencing
AM437x, AM438x.…………………………...............TPS65218D0 Designed specifically for the AM43x family, integrates necessary voltages and sequencing
AM570x……………………….LP87332D+LP873220, TPS65916
AM571x………………....………………...TPS65916, TPS659037
AM572x, AM574x……....……………………………...TPS659037
Miscellaneous
NXP
FPGAs
TI
PMICs reduce system complexity with fewer components and provide power scalability across processors. Built-in power sequencing, monitoring, and voltage scaling help simplify the design versus a fully discrete solution.
For every system with a processor, a PMIC should be considered.
TI Information – Selective Disclosure
TI Information – Selective Disclosure 30
Questions? Contact: Shashank Sharma
?
TI Information – Selective Disclosure
New Product Updates now on our website!
31
https://training.ti.com/npu
TI Information – Selective Disclosure
Upcoming New Product Updates
32
Date Topic
4/16/2020 High Speed Signal Conditioning-
LVDS, M-LVDS & PECL
HDMI, DisplayPort & MIPI
4/23/2020 LED Drivers
4/30/2020 High Speed Converters
5/7/2020 Mid Vin Buck Switching Reg 7-20Vin
TI Information – Selective Disclosure 33
BACK UP
TI Information – Selective Disclosure
Programming Process with Arrow
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Visit the Arrow programming services page from the DIY PMICs landing page or
go to arrow.com/manufacturing/
Customer fills out Start a Project form. Any inquiry is routed within 24
hours to the appropriate Arrow sales representative
Arrow programs and ships
units to the customer
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The Arrow Sales representative provides the customer: • Customer Letter of enquired PMIC
• Pre-Programming Worksheet to understand the programming services
• Pricing, location, quantity, timeline logistics
The customer sends OTP file + Preprogramming
Worksheet back to Arrow and submits a PO