hilscher netX 50, netX 51, netX 52 Migration Manual
Migration Guide
netX 50 to netX 51/52
Hilscher Gesellschaft für Systemautomation mbH
www.hilscher.com
DOC120109MG05EN | Revision 5 | English | 2013-08 | Released | Public
Introduction 2/56
Table of Contents
1 Introduction.............................................................................................................................................3
1.1 Migration from netX 50 to netX 51/52............................................................................................3
1.2 List of Revisions.............................................................................................................. ...............5
1.3 Terms, Abbreviations and Definitions............................................................................................5
1.3.1 netX Signal Description.....................................................................................................................6
1.4 Legal Notes..................................................................................................................................10
1.4.1 Copyright.........................................................................................................................................10
1.4.2 Important Notes...............................................................................................................................10
1.4.3 Exclusion of Liability........................................................................................................................ 11
1.4.4 Export..............................................................................................................................................11
2 Comparison netX 50 with netX 51/52 .................................................................................................12
2.1 Overview ......................................................................................................................................12
2.1.1 Block Diagrams...............................................................................................................................12
2.1.2 Key Features...................................................................................................................................13
2.1.3 Enhancements of netX 51/52 against netX 50 ................................................................................14
3 Package, Pinning, Pad Cells ...............................................................................................................15
3.1 netX 52.........................................................................................................................................15
3.1.1 netX 52 Package............................................................................................................................. 15
3.1.2 netX 52 Pinning............................................................................................................................... 16
3.2 Alternative Function at Host Interface..........................................................................................22
3.3 netX 51.........................................................................................................................................24
3.3.1 Differences in Pinning and Pad Cells .............................................................................................. 24
3.4 MMIO Signals...............................................................................................................................32
4 General Changing ................................................................................................................................34
4.1 CPUs............................................................................................................................................34
4.1.1 Core CPU........................................................................................................................................34
4.1.2 Additional CPU................................................................................................................................ 34
4.2 Memory ........................................................................................................................................35
4.2.1 Layout..............................................................................................................................................35
4.3 Peripherals...................................................................................................................................36
4.4 Improved Memory Access Performance......................................................................................38
4.5 Activating 256 KByte as Dual-Port Memory and Detection of netX 51 or netX 52 Mode............39
4.6 Host Interface Modes...................................................................................................................40
4.7 Miscellaneous ..............................................................................................................................41
4.7.1 Operating Conditions....................................................................................................................... 41
4.7.2 Effects to existing Software............................................................................................................. 41
4.7.3 Effects to existing Development Tools ............................................................................................ 41
5 Erratas...................................................................................................................................................42
5.1 Fixed Erratas of netX 50 ..............................................................................................................42
5.2 New Errata for netX 51 / 52..........................................................................................................43
5.2.1 SYS LED lights doesn’t light correctly during active Boot Loader.................................................... 43
5.2.2 Simultaneous Operation of SDRAM and parallel Flash Memory at the Memory Interface ..............44
6 Design Examples..................................................................................................................................45
6.1 Design Example netX 51..............................................................................................................45
6.2 Design Example netX 52..............................................................................................................50
7 Appendix...............................................................................................................................................55
7.1 List of Tables................................................................................................................................55
7.2 List of Figures...............................................................................................................................55
7.3 Contacts.......................................................................................................................................56
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1 Introduction
1.1 Migration from netX 50 to netX 51/52
This manual describes the differences between the netX 50 and netX 51/52 with the aim to support
and lead you during the migration from netX 50 to netX 51/52.
Real-Time-Ethernet / Fieldbus
8x IO-Link
3x UART
Peripherals
SPI / QSPI
Memory
Controller
Memory*
MEM
CAN
MAC
USB
2x I2C
672 KB
SRAM
64kB
ROM
Switch
EXT
PHY PHY
xC ALUs
Channel 1
xPIC RISC CPU
Data
netX 51 / 52
* netX 52:
None external Memory Bus
DPM
100 MHz
ARM 966
100 MHz
SPM
MAC PIO
xC ALUs
Channel 2
CPUs
Host-Interface
Figure 1: Functionality and Price of netX 6/50/51/52
Within the netX network controller family the netX 50 support all Real-Time-Ethernet systems. After
a few years in the market it was necessary to upgrade the communication functionality to support
PROFINET in the version 2.3. Together with some other enhancement we are offering the pin
compatible controller netX 51. This can be placed on already existing netX 50 PCBs without
modifications. It also supports IO-Link version 1.1 and includes much more RAM and an additional
32-Bit Risc Controller, CAN controller and a MAC.
The same functionality is available as netX 52 without an external memory bus in a smaller
package for a lower price.
The netX 6 with the same housing as the netX 52 is designed as network access controller. This
means it needs additional a host CPU to run the protocol stack. It includes only the 32-Bit Risc
controller and less memory to realize only the Real-Time-Switch functionality.
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With the netX 52 you can build up a very compact (30 x 30 mm) 2-Port Real-Time-Ethernet
Interfaces for a very low price. With the loadable firmware the whole interface works a black box
with a configurable 8-/16-/32-Bit Dual-Port-Memory or a SPI slave interface.
The following block diagram gives you an overview. The detailed schematic you will find in the
annex of this Migration Guide.
Host-DPM
Host-SPI
UART or
Synchronization
USB
3.3V
GND
RDY
RUN
MMIO28
MMIO29
MMIO30
MMIO31
MMIO12
MMIO13
PHY0_TXP
PHY0_TXN
PHY0_RXP
PHY0_RXN
MMIO14
MMIO15
PHY1_TXP
PHY1_TXN
PHY1_RXP
PHY1_RXN
3.3V
4 MB
SPI Flash
Power on
Reset
3.3V
1.5V
DPM / SPM / PIO
RXD / SYNC0
TXD / SYNC1
USB
netX 52
SPI
POR
XTI
25 MHz
XTO
VDDC
VDDIO
VSS
Figure 2: Design Example with netX 51
3.3V
SYS
COM0
COM1
LINK
ACT
Ethernet
Channel 0
LINK
ACT
Ethernet
Channel 1
GND
Component Description Manufacturer Price
netX 52 Network Controller Hilscher 10,00 €
W25Q32VSSIG QSPI Flash Windbond 0,70 €
MAX811SEUS-T Reset Generator Maxim 0,20 €
EN5312Q DC/DC Converter 3,3 V/1,5 V Enpirion 1,20 €
25 MHz Crystal div. 0,30 €
3x LED Dual Color div. 0,30 €
Dual RJ45 with Magnetics / LEDs div. 2,80 €
Rs / Cs / Ls div. 0,50 €
Material Cost per Interface in quantities of 10.000 pcs. without PCB 16,00 €
Table 1: Material Costs
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1.2 List of Revisions
Rev Date Name Chapter Revision
0 2012-02-01 AO All Created.
1 2012-02-08 HJH All Reviewed.
2 2012-04-25 HJH Added some additional explanation.
3 2012-11-28 HH 1.3.1 Signal name for MII interface starts with MII (instead of ETH) in Table 4.
2.1.1 Figure 4: MAC (to PHY) mappable into Host Interface.
3.1.2 Corrections
3.2 Section Alternative Function at Host Interface added.
5.2.2
4 2013-03-26 HH
4.6 Section Host Interface Modes updated. Table 22 revised.
5 2013-08-26 HH 4.5 Correction: 10 Kbyte to 10 kOhm
Table 2: List of Revisions
2.1.1,
2.1.2
Section Simultaneous Operation of SDRAM and parallel Flash Memory at
the Memory Interface ad
Correctio
n: 1x I2C for netX 50
ded
1.3 Terms, Abbreviations and Definitions
Term Description
DPM
DFP
FTS Fast-Track Switching
HIF
INTRAM
PBGA
XiP
xMAC
xPEC
xPIC
Table 3: Terms, Abbreviations and Definitions
All variables, parameters, and data used in this manual have the LSB/MSB (“Intel”) data format.
This corresponds to the convention of the Microsoft C Compiler.
All IP addresses in this document have host byte order.
Dual-Port Memory
Dynamic Frame Packing
Host InterFace
INTernal SRAM
Plastic Ball Grid Array
EXecution in Place
Flexible Media Access Controller
Flexible Protocol Execution Controller
Flexible Peripheral Interface Controller
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1.3.1 netX Signal Description
General
PORn Power on Reset
RSTINn Reset Input
RSTOUTn Reset Output
RDYn RDY-LED / Boot option
RUNn RUN-LED / Boot option
CLKOUT Clock out
WDGACT Watchdog active
Oscillator
OSC_XTI 25 MHz Crystal Input
OSC_XTO 25 MHz Crystal Output
OSC_VSS Oscillator Power Supply Ground
OSC_VDDC Oscillator Power Supply Core 1.5V
JTAG
JT_TRSTn JTAG Test Reset
JT_TMS JTAG Test Mode Select
JT_TCLK JTAG Test Clock
JT_TDI JTAG Test Data Input
JT_TDO JTAG Test Data Output
SPI
SPI0_CLK SPI 0 Clock
SPI0_CS0n SPI 0 Chip Select 0
SPI0_CS1n SPI 0 Chip Select 1
SPI0_MISO SPI 0 Master Input Slave Output Data
SPI0_MOSI SPI 0 Master Output Slave Input Data
QSPI_CLK XiP / QSPI Clock
QSPI_CSn XiP / QSPI Chip Select
QSPI_SIO0...3 XiP / QSPI Serial IO Data 0…3
I2C
I2C_SCL I2C Serial Clock Line
I2C_SDA I2C Serial Data Line
USB
USB_DNEG USB D- Line
USB_DPOS USB D+ Line
USB_VDDC USB Power Supply Core 1.5 V
USB_VDDIO USB Power Supply IO 3.3 V
Test
BSCAN_TRST Reset Boundary Scan Controller
TEST Activate Test Mode (left open)
TMC1 Test Mode 1 (left open)
TMC2 Test Mode 2 (left open)
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TACT_TRST Reset Test Controller
MEM_IF_OM Memory Interface Output Mode, Connect to GND for normal operating mode
MMIO
MMIO0...48 Multiplex Matrix IO 0...48
Fieldbus Interface
XM0_TX XMAC0 Transmit Data
XM0_ECLK External Clock input for XM0_TX / output from XMAC0
XM0_TX_ECLK XMAC0 Transmit Data, clocked with external clock
FB0_CLK Clock output of fb0_clk
XM1_TX XMAC1 Transmit Data
XM1_ECLK External Clock input for XM1_TX / output from XMAC1
XM1_TX_ECLK XMAC1 Transmit Data, clocked with external clock
FB1_CLK Clock output of fb1_clk
Ethernet MAC MII Interface
MII_RXCLK Ethernet MAC Rx Clock
MII_RXD0...3 Ethernet MAC Rx Data 0...3
MII_RXDV Ethernet MAC Rx Data Valid
MII_RXER Ethernet MAC Rx Error
MII_TXCLK Ethernet MAC Tx Clock
MII_TXD0...3 Ethernet MAC Tx Data 0...3
MII_TXEN Ethernet MAC Tx Enable
MII_TXER Ethernet MAC Tx Error
MII_COL Ethernet MAC Collision
MII_CRS Ethernet MAC Carrier Sense
Memory Interface
MEMSR_CS0...2n SRAM Chip Select 0...2
MEMSR_OEn SRAM Output Enable
MEMSR_WEn SRAM Write Enable
MEMDR_CSn SDRAM Chip Select
MEMDR_WEn SDRAM Write Enable
MEMDR_RASn SDRAM RAS
MEMDR_CASn SDRAM CAS
MEMDR_CKE SDRAM Clock Enable
MEMDR_CLK SDRAM Clock
MEM_DQM0 Memory Data Qualifier Mask D0-7
MEM_DQM1 Memory Data Qualifier Mask D8-15
MEM_DQM2 Memory Data Qualifier Mask D16-23
MEM_DQM3 Memory Data Qualifier Mask D24-31
MEM_D0...31 Memory Data 0-31
MEM_A0...23 Memory Addre ss 0-23
Host Interface
DPM_A00...15 Dual-Port Memory Address 0..15
DPM_BE1n Dual-Port Memory Byte High Enable
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DPM_BE3n Dual-Port Memory Byte Enable 3
DPM_CSn Dual-Port Memory Chip Select
DPM_D0...31 Dual-Port Memory Data 0...31
DPM_DIRQn Dual-Port Memory Data Interrupt
DPM_SIRQn Dual-Port Memory Sync Interrupt
DPM_RDn Dual-Port Memory Read
DPM_WAITn Dual-Port Memory Wait
DPM_WRn Dual-Port Memory Write
SPM_MISO Serial-Port Memory (SPI) Master Input Slave Output Data
SPM_MOSI Serial-Port Memory (SPI) Master Output Slave Input Data
SPM_CSN Serial-Port Memory (SPI) Chip Select
SPM_CLK Serial-Port Memory (SPI) Clock
SPM_DIRQ Serial-Port-Memory Interrupt Source 1
SPM_SIRQ Serial-Port-Memory Interrupt Source 2
PHY0, PHY1
PHY0_RXN PHY 0 Receive Input negative
PHY0_RXP PHY 0 Receive Input positive
PHY0_TXN PHY 0 Transmit Output negative
PHY0_TXP PHY 0 Transmit Output positive
FO0_RD Fiberoptic Ethernet channel 0, Receive Data
FO0_TD Fiberoptic Ethernet channel 0, Transmit Data
FO0_EN Fiberoptic Ethernet channel 0, Enable
FO0_SD Fiberoptic Ethernet channe l 0, Signal Detect
PHY0_VSSAT1 PHY 0 Analog Ground Supply
PHY0_VSSAT2 PHY 0 Analog Ground Supply
PHY0_VSSAR PHY 0 Analog Ground Supply
PHY0_VDDCART PHY 0 Analog TX/RX Power Supply 1.5 V
PHY1_RXN PHY 1 Receive Input negative
PHY1_RXP PHY 1 Receive Input positive
PHY1_TXN PHY 1 Transmit Output negative
PHY1_TXP PHY 1 Transmit Output positive
FO1_RD Fiberoptic Ethernet channel 1, Receive Data
FO1_TD Fiberoptic Ethernet channel 1, Transmit Data
FO1_EN Fiberoptic Ethernet channel 1, Enable
FO1_SD Fiberoptic Ethernet channe l 1, Signal Detect
PHY1_VSSAT1 PHY 1 Analog Ground Supply
PHY1_VSSAT2 PHY 1 Analog Ground Supply
PHY1_VSSAR PHY 1 Analog Ground Supply
PHY1_VDDCART PHY 1 Analog TX/RX Power Supply 1.5 V
PHY_EXTRES Reference Resistor 12.4 k / 1%
PHY_ATP Leave open!
PHY_VSSACP PHY Analog Central Ground Supply
PHY_VDDCAP PHY Analog Central Power Supply 1.5 V
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PHY_VDDIOAC PHY Analog Central Power Supply 3.3 V
PHY_VSSAT PHY Analog Test Ground Supply
PHY_VDDIOAT PHY Analog Test Power Supply 3.3 V
Power
VSS Ground Supply (except PHY and Oscillator)
VDDC Power Supply, Core 1.5 V (except PHY and Oscillator)
VDDIO Power Supply, IO Buffer 3.3 V (except PHY and USB)
ETM
ETM_TCLK ETM Trace clock
ETM_TSYNC ETM Trace synchronization
ETM_DRQ ETM Debug request
ETM_DACK ETM Debug acknowledge
ETM_PSTAT0 ETM Pipe status 0
ETM_PSTAT1 ETM Pipe status 1
ETM_PSTAT2 ETM Pipe status 2
ETM_TPKT00 ETM Trace packet 0
ETM_TPKT01 ETM Trace packet 1
ETM_TPKT02 ETM Trace packet 2
ETM_TPKT03 ETM Trace packet 3
ETM_TPKT04 ETM Trace packet 4
ETM_TPKT05 ETM Trace packet 5
ETM_TPKT06 ETM Trace packet 6
ETM_TPKT07 ETM Trace packet 7
ETM_TPKT08 ETM Trace packet 8
ETM_TPKT09 ETM Trace packet 9
ETM_TPKT10 ETM Trace packet 10
ETM_TPKT11 ETM Trace packet 11
ETM_TPKT12 ETM Trace packet 12
ETM_TPKT13 ETM Trace packet 13
ETM_TPKT14 ETM Trace packet 14
ETM_TPKT15 ETM Trace packet 15
Table 4: Signal Description
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1.4 Legal Notes
1.4.1 Copyright
2012-2013, Hilscher Gesellschaft für Systemautomation mbH
All rights reserved.
The images, photographs and texts in the accompanying material (user manual, accompanying
texts, documentation, etc.) are protected by German and international copyright law as well as
international trade and protection provisions. You are not authorized to duplicate these in whole or
in part using technical or mechanical methods (printing, photocopying or other methods), to
manipulate or transfer using electronic systems without prior written consent. You are not permitted
to make changes to copyright notices, markings, trademarks or ownership declarations. The
included diagrams do not take the patent situation into account. The company names and product
descriptions included in this document may be trademarks or brands of the respective owners and
may be trademarked or patented. Any form of further use requires the explicit consent of the
respective rights owner.
1.4.2 Important Notes
The user manual, accompanying texts and the documentation were created for the use of the
products by qualified experts, however, errors cannot be ruled out. For this reason, no guarantee
can be made and neither juristic responsibility for erroneous information nor any liability can be
assumed. Descriptions, accompanying texts and documentation included in the user manual do
not present a guarantee nor any information about proper use as stipulated in the contract or a
warranted feature. It cannot be ruled out that the user manual, the accompanying texts and the
documentation do not correspond exactly to the described features, standards or other data of the
delivered product. No warranty or guarantee regarding the correctness or accuracy of the
information is assumed.
We reserve the right to change our products and their specification as well as related user
manuals, accompanying texts and documentation at all times and without advance notice, without
obligation to report the change. Changes will be included in future manuals and do not constitute
any obligations. There is no entitlement to revisions of delivered documents. The manual delivered
with the product applies.
Hilscher Gesellschaft für Systemautomation mbH is not liable under any circumstances for direct,
indirect, incidental or follow-on damage or loss of earnings resulting from the use of the information
contained in this publication.
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1.4.3 Exclusion of Liability
The software was produced and tested with utmost care by Hilscher Gesellschaft für
Systemautomation mbH and is made available as is. No warranty can be assumed for the
performance and flawlessness of the software for all usage conditions and cases and for the
results produced when utilized by the user. Liability for any damages that may result from the use
of the hardware or software or related documents, is limited to cases of intent or grossly negligent
violation of significant contractual obligations. Indemnity claims for the violation of significant
contractual obligations are limited to damages that are foreseeable and typical for this type of
contract.
It is strictly prohibited to use the software in the following areas:
for military purposes or in weapon systems;
for the design, construction, maintenance or operation of nuclear facilities;
in air traffic control systems, air traffic or air traffic communication systems;
in life support systems;
in systems in which failures in the software could lead to personal injury or injuries leading to
death.
We inform you that the software was not developed for use in dangerous environments requiring
fail-proof control mechanisms. Use of the software in such an environment occurs at your own risk.
No liability is assumed for damages or losses due to unauthorized use.
1.4.4 Export
The delivered product (including the technical data) is subject to export or import laws as well as
the associated regulations of different counters, in particular those of Germany and the USA. The
software may not be exported to countries where this is prohibited by the United States Export
Administration Act and its additional provisions. You are obligated to comply with the regulations at
your personal responsibility. We wish to inform you that you may require permission from state
authorities to export, re-export or import the product.
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2 Comparison netX 50 with netX 51/52
2.1 Overview
2.1.1 Block Diagrams
Block Diagram netX 50
Figure 3: Block Diagram of netX 50
Block Diagram netX 51/52
Figure 4: Block Diagram of netX 51/52
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2.1.2 Key Features
The netX 51 and netX 52 is an enhancement of the existing netX 50 to fulfil the increasing
demands of performance and functionality of industrial networks. These controllers are supporting
the PROFINET Specification 2.3 with the new option of Dynamic Frame Packaging and the IO-Link
Version 1.1 with long telegrams.
We followed the successful strategy of the netX 10 controllers and implemented a second RISC
CPU. This can be programmed by the user to work parallel with the ARM CPU handling very fast
IO signals without interfering the communication tasks.
Further more we increased the application interface with a dedicated CAN Controller and an
Ethernet MAC. Very often these communication lines were the reason to use the more expensive
three channel controller netX 100.
To increase the over all performance of the netX 51 / 52 and to allow real single chip solutions the
internal memory is dramatically enlarged from 96 KByte to 672 KByte.
netX 50 51 52
CPU ARM 966-200 MHz ARM 966-100 MHz
Secondary CPU xPIC-100 MHz
SRAM / ROM / ITCM / DTCM [kByte] 96 / 64 / 8 / 8 672 / 64 / - / Separate External Memory Bus X X DPM parallel [Data Width] 8 / 16 / 32
DPM serial - X
Host Interface PIOs 54 58
Host Interface usable as
ExtMemBus / SDRAM / MAC
Communication Channels 2
Internal PHYs 2
CAN Controller / Ethernet MAC - / - X / X
IO-Link: Channels/Version 8 / V1.0 8 / V1.0, V1.1
USB Host / Device X / X - / X
UARTs / I2C / SPI / QSPI 3 / 1 / 2 / - 3 / 2 / 1 / 1
IEEE 1588 System Time X
IOs (without Host Interface PIOs) 32 40 24
Pins / Package 324 / PBGA 244 / PBGA
Grid / size [mm] 1.0 mm / 19x19 0.8 mm / 15x15
Fieldbus / RTE (w/o PN IRT with DFP and FTS) X / X
Support PROFINET IRT with DFP - X
Support Fast Track Switching (FTS) - X
Table 5: Key Features
- / - / -
X / - / X
X / X / X
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2.1.3 Enhancements of netX 51/52 against netX 50
Significant more internal memory available to accelerate tasks
High performance access to INTRAM blocks via TCM channels of ARM CPU
Reduced Power Consumption with higher Performance based on lower System Clock with
ARM CPU high speed Memory Access via two TCM channels
Improved ARM performance on SDRAM
Performance of communication channel doubled to support high performance RTE-systems
as PROFINET IRT with Dynamic Frame Packing or Fast-Track-Switching
xPIC as additional 100 MHz RISC CPU for time-critical tasks
Separate CAN Controller in addition to two communication channels
Separate Ethernet MAC in addition to two communication channels (Datalink layer done by
xPIC)
New generation of Renesas’ internal PHYs for shortening cut-through delays
Dual-Port Memory: minimized access times, can run without Wait / Busy-line
Serial access to internal DPM via SPI/QSPI Slave interface without interfering of ARM CPU
Support IO-Link V1.1 specification
Dedicated Quad SPI Controller instead using internal communication controller for fast
loading of program code
Support of XiP (Execution in Place). Execution of program code directly out of serial flash
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3 Package, Pinning, Pad Cells
The netX 51 comes in a 324 pin PBGA package and has the same pinning and size as the netX 50
has. It is designed to replace the netX 50 without changing the PCB (drop-in-replacement).
The netX 52 comes in a smaller 244 pin PBGA package with 0.8mm grid.
3.1 netX 52
3.1.1 netX 52 Package
Figure 5: Mechanical Dimensions of the netX 52
Symbol Min Type Max
A1 0.29 mm 0.35 mm 0.41 mm
A2 1.11 mm
b 0.40 mm 0.50 mm 0.55 mm
E 14.90 mm 15.00 mm 15.10 mm
e 0.80 mm
D 14.90 mm 15.00 mm 15.10 mm
Table 6: Mechanical Dimensions of the netX 52
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3.1.2 netX 52 Pinning
Pin Pad
A03 IOU9 IO DPM_A0/BE0n DPM Dual-Port Memory Address 0
B06 IOU9 IO DPM_A1/BE2n DPM Dual-Port Memory Address 1
B12 IOU9 IO DPM_A10 DPM Dual-Port Memory Address 10
A14 IOU9 IO DPM_A11 DPM Dual-Port Memory Address 11
B13 IOU9 IO DPM_A12 DPM Dual-Port Memory Address 12
A13 IOU9 IO DPM_A13 DPM Dual-Port Memory Address 13
A12 IOU9 IO DPM_A14 DPM Dual-Port Memory Address 14
B11 IOU9 IO DPM_A15 DPM Dual-Port Memory Address 15
A17 IOU9 IO DPM_A16 DPM Dual-Port Memory Address 16
A18 IOU9 IO DPM_A17 DPM Dual-Port Memory Address 17
C06 IOU9 IO DPM_A2 DPM Dual-Port Memory Address 2
C07 IOU9 IO DPM_A3 DPM Dual-Port Memory Address 3
B08 IOU9 IO DPM_A4 DPM Dual-Port Memory Address 4
A07 IOU9 IO DPM_A5 DPM Dual-Port Memory Address 5
B09 IOU9 IO DPM_A6 DPM Dual-Port Memory Address 6
C09 IOU9 IO DPM_A7 DPM Dual-Port Memory Address 7
C13 IOU9 IO DPM_A8 DPM Dual-Port Memory Address 8
A10 IOU9 IO DPM_A9 DPM Dual-Port Memory Address 9
A16 IOU9 IO DPM_BHEn/BE1n DPM Dual-Port Memory Byte Enable 1
A15 IOU9 IO DPM_CSn DPM Dual-Port Memory Chip Select
A01 IOU9 IO DPM_D0 DPM Dual-Port Memory Data 0
C02 IOU9 IO DPM_D1 DPM Dual-Port Memor y Data 1
D02 IOU9 IO DPM_D2 DPM Dual-Port Memor y Data 2
B03 IOU9 IO DPM_D3 DPM Dual-Port Memory Data 3
B04 IOU9 IO DPM_D4 DPM Dual-Port Memory Data 4
B02 IOU9 IO DPM_D5 DPM Dual-Port Memory Data 5
A05 IOU9 IO DPM_D6 DPM Dual-Port Memory Data 6
B05 IOU9 IO DPM_D7 DPM Dual-Port Memory Data 7
G18 IOU9 IO DPM_D8 DPM Dual-Port Memory Data 8
G16 IOU9 IO DPM_D9 DPM Dual-Port Memory Data 9
F17 IOU9 IO DPM_D10 DPM Dual-Port Memory Data 10
D18 IOU9 IO DPM_D11 DPM Dual-Port Memory Data 11
C18 IOU9 IO DPM_D12 DPM Dual-Port Memory Data 12
B18 IOU9 IO DPM_D13 DPM Dual-Port Memory Data 13
C17 IOU9 IO DPM_D14 DPM Dual-Port Memory Data 14
B17 IOU9 IO DPM_D15 DPM Dual-Port Memory Data 15
G17 IOU9 IO DPM_D16 DPM Dual-Port Memory Data 16
F18 IOU9 IO DPM_D17 DPM Dual-Port Memory Data 17
E18 IOU9 IO DPM_D18 DPM Dual-Port Memory Data 18
E17 IOU9 IO DPM_D19 DPM Dual-Port Memory Data 19
C12 IOU9 IO DPM_D20 DPM Dual-Port Memory Data 20
C11 IOU9 IO DPM_D21 DPM Dual-Port Memory Data 21
A11 IOU9 IO DPM_D22 DPM Dual-Port Memory Data 22
C10 IOU9 IO DPM_D23 DPM Dual-Port Memory Data 23
In
Signal Group Description
Out
netX 50 to netX 51/52 | Migration Guide
DOC120109MG05EN | Revision 5 | English | 2013-08 | Released | Public 2012-2013
Package, Pinning, Pad Cells 17/56
Pin Pad
A09 IOU9 IO DPM_D24 DPM Dual-Port Memory Data 24
A08 IOU9 IO DPM_D25 DPM Dual-Port Memory Data 25
A06 IOU9 IO DPM_D26 DPM Dual-Port Memory Data 26
B07 IOU9 IO DPM_D27 DPM Dual-Port Memory Data 27
A02 IOU9 IO DPM_D28 DPM Dual-Port Memory Data 28
A04 IOU9 IO DPM_D29 DPM Dual-Port Memory Data 29
D03 IOU9 IO DPM_D30 DPM Dual-Port Memory Data 30
H17 IOU9 IO DPM_D31 DPM Dual-Port Memory Data 31
D16 IOU9 IO DPM_DIRQn DPM Dual-Port Memory Data Interrupt
B15 IOU9 IO DPM_RDn DPM Dual-Port Memory Read
C15 IOU9 IO DPM_WAITn DPM Dual-Port Memory Wait
C08 IOD9 IO DPM_SIRQn DPM Dual-Port Memory Sync Interrupt
B16 IOU9 IO DPM_WRHn/BE3n DPM Dual-Port Memory Byte Enable 3
B14 IOU9 IO DPM_WRn/WRLn DPM Dual-Port Memory Write
E03 IDS I BSCAN_TRST GENERAL Reset Boundary Scan Controller
V07 PLL power supply I OSC_VDDC GENERAL Oscillator Power Supply Core 1.5V
U07 PLL power supply I OSC_VSS GENERAL Oscillator Power Supply Ground
U08 Ocsillator pad I OSC_XTI GENERAL 25 MHz Crystal Input
V08 Ocsillator pad O OSC_XTO GENERAL 25 MHz Crystal Output
C01 IUS I PORn GENERAL Power on Reset
F01 IOD6 IO RDYn GENERAL RDY-LED / Boot start option
D01 OZ6 O RSTOUTn GENERAL Reset Output
F02 IOD6 IO RUNn GENERAL RUN-LED / Boot start option
G02 IDS I TACT_TRST GENERAL Reset Test Controller
B10 ID I TEST GENERAL Activate Test Mode (left open)
F03 Internal Test pin, tmc1 I TMC1 GENERAL Test Mode 1 (left open)
G03 Internal Test pin, tmc2 I TMC2 GENERAL Test Mode 2 (left open)
H18 IOZUS9 (5K pull up) IO I2C_SCL I2C I2C Serial Clock Line
H16 IOZUS9 (5K pull up) IO I2C_SDA I2C I2C Serial Data Line
H01 IUS I JT_TCLK JTAG JTAG Test Clock
J03 IUS I JT_TDI JT AG JTAG Test Data Input
M03 OZ6 O JT_TDO JTAG JTAG Test Data Output
K03 IUS I JT_TMS JTAG JTAG Test Mode Select
H03 IDS I JT_TRSTn JTAG JTAG Test Reset
T13 - - n. c. - Reserved
T10 1,5V Core Power VDDC POWER Power Supply Core 1.5V
T12 1,5V Core Power VDDC POWER Power Supply Core 1.5V
T11 3,3V IO Power VDDIO POWER Power Supply IO 3.3V
U14 3,3V IO Power VDDIO POWER Power Supply IO 3.3V
U10 - - n. c. - Reserved
V10 - - n. c. - Reserved
U12 - - n. c. - Reserved
V12 - - n. c. - Reserved
U11 - - n. c. - Reserved
V11 - - n. c. - Reserved
U13 - I- n. c. - Reserved
In
Signal Group Description
Out
netX 50 to netX 51/52 | Migration Guide
DOC120109MG05EN | Revision 5 | English | 2013-08 | Released | Public 2012-2013
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