Technical notes for the Converter Evaluation and Development board PDF

Preliminary Technical Data
Converter Evaluation and Development
(CED) Board
EVAL-CED1Z
FEATURES
GENERAL DESCRIPTION
Interfaces to multiple serial and parallel precision converter
evaluation boards
Supports high-speed LVDS interface
32MB SDRAM
4MB SRAM
USB 2.0 connection to PC
User reprogrammable Altera Cyclone FPGA
Provides 8 separate power supplies
Connects directly to Blackfin Ez-Kit
The CED1 board is part of a next generation platform from
Analog Devices Inc., intended for use in evaluation,
demonstration and development of systems using Analog
Devices precision converters. It provides the necessary
communications between the converter and the PC,
programming or controlling the device, transmitting or
receiving data over a USB link.
PACKAGE CONTENTS
•
•
•
APPLICATIONS
Evaluating Precision Converters
Creation of demonstration systems
Prototyping of end-user systems
CED Board
USB A to Mini-B cable
7 Volt 15W Power Supply
.
FUNCTIONAL BLOCK DIAGRAM
Figure 1.
Rev. PrA
Evaluation boards are only intended for device evaluation and not for production purposes.
Evaluation boards are supplied “as is” and without warranties of any kind, express, implied, or
statutory including, but not limited to, any implied warranty of merchantability or fitness for a
particular purpose. No license is granted by implication or otherwise under any patents or other
intellectual property by application or use of evaluation boards. Information furnished by Analog
Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog
Devices for its use, nor for any infringements of patents or other rights of third parties that may result
from its use. Analog Devices reserves the right to change devices or specifications at any time
without notice. Trademarks and registered trademarks are the property of their respective owners.
Evaluation boards are not authorized to be used in life support devices or systems.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
www.analog.com
Tel: 781.329.4700
Fax: 781.461.3113
©2007 Analog Devices, Inc. All rights reserved.
EVAL-CED1Z
Preliminary Technical Data
TABLE OF CONTENTS
Features .............................................................................................. 1
J6 – FPGA JTAG Connector........................................................5
Applications....................................................................................... 1
J8, 9, 10 – 3x 90-way Blackfin Ez-Kit connectors .....................5
General Description ......................................................................... 1
J3 – 96-way DIN41612 Connector..............................................5
Package Contents.............................................................................. 1
J7 – Analog Power Connector .....................................................8
Functional Block Diagram .............................................................. 1
J12 – SPORT Interface ..................................................................8
Revision History ............................................................................... 2
J13 – SPI Interface .........................................................................9
General Description ......................................................................... 3
J14 – PPI Interface.........................................................................9
Connectors ........................................................................................ 4
Connector Part Numbers .............................................................9
J5 – LVDS Connector................................................................... 4
Power Supplies ................................................................................ 10
J1 – Mini USB ‘B’ connector ....................................................... 5
Schematics ....................................................................................... 11
J2 – 2-pin screw terminal power connector.............................. 5
Ordering Guide .......................................................................... 24
J4 – DC Power Connector........................................................... 5
ESD Caution................................................................................ 24
REVISION HISTORY
7/07—Revision 0: Initial Revision
Rev. PrA | Page 2 of 24
Preliminary Technical Data
EVAL-CED1Z
GENERAL DESCRIPTION
interfaces and power supplies simultaneously. LVDS is
supported through a dedicated connector designed for data
pairs with individual grounds.
For developments that require a processor as well as an
FPGA, the CED1 board provides the means to connect
directly to a Blackfin EZ-Kit. Three 90-way connectors
present on the board mate directly with the Blackfin Ez-Kit
allowing the development of very powerful systems and
demonstrations.
To help minimize the amount of external equipment needed
to run a system successfully, the CED board provides eight
separate power supplies made available for external
connection. The details of these supplies and their current
ratings are contained in the Power Supply section of this
document.
The CED board requires a single 7V, 15W supply which
ships with the board. The user may also connect a bench-top
supply providing it can source a minimum current of 2A.
The Converter Evaluation and Development board is
intended to assist system designers evaluate and prototype
systems utilizing precision converter components from
Analog Devices. It provides a means to read and write data,
control and program devices from a PC via a high-speed
USB 2.0 connection.
Due to its design, the CED1 can handle interfacing to
multiple devices simultaneously for users who may wish to
prototype their system utilizing proven hardware
components from Analog Devices.
The reconfigurable FPGA-based architecture of the board
allows the FPGA to be reprogrammed at any time via the
USB connection. This allows the user to develop and run
their own code to accomplish their desired task.
The many interfacing options accommodate connection to a
wide range of precision converter evaluation boards in
different form factors. Three standard 0.1-inch pitch headers
are available, supporting SPI, SPORT and parallel
functionality. A 96-way connector provides links to multiple
USB
Connector
Status
LEDs
DC Power
Connectors
Reset
Switch
90-way connector
90-way connector
SPORT Interface
32MB
SDRAM
Cyclone
FPGA
2MB SRAM
2MB SRAM
SPI Interface
90-way connector
PPI Interface
LVDS
Connector
Analog Power
96-way Connector
Figure 2. Major Component Locations
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EVAL-CED1Z
Preliminary Technical Data
CONNECTORS
Many connectors are provided on the CED board to facilitate
design and attachment of a range of different form factor
converter boards. Due to the number of connections available
on the FPGA, certain signals on different connectors are shared
and replicated across different connectors.
All signals have been named to assist the user in identifying the
shared signals and to which group they belong. SPI signals
begin with SPI_xxx, SPORT signals begin with SPORT_xxx and
parallel/PPI signals begin with PAR_xxx/PPI_xxx. More details
of these signals are given in the relevant connector sections.
and transmit clocks. Control of any high-speed device is
normally achieved over an interface separate to the data. For
this purpose, the SPI and some parallel control signals are also
routed over this connector. With the inclusion of three power
supplies, this connector provides the flexibility to interface to
many LVDS converters. Details of the pin-out of this connector
are given in Table 1.
J5 – LVDS CONNECTOR
If connecting the CED1 to a high-speed LVDS converter
evaluation board, this connector should be used. The connector
provides for four differential receive and four differential
transmit data pairs in addition to separate differential receive
Figure 3. LVDS Connector pin locations
Table 1. LVDS Connector pin out
Pin Num
Pin Name
Description
1A, 1B
+VarA
Variable voltage analog power supply. See power supply section for more details.
1C, 1D
CLKOUT+/-
Differential Clock Output
2A
PAR_CS0
Parallel Chip Select 0
2B
PAR_RD
Parallel Read Strobe
C2-9, D2-7
Dx+/-
Differential Data Receive or Transmit Pair. By default the CED board is configured for 4
receive pairs (D0-3) and 4 transmit pairs (D4-7). These can be reconfigured by changing
the termination resistors on the CED board. See schematics for more details.
A3-6
SPI_SELx
SPI Peripheral Chip Select
B3
PAR_WR
Parallel Write Strobe
B4
SPI_MISO
SPI Master In, Slave Out Data line
B5
SPI_MOSI
SPI Master Out, Slave In Data line
B6
SPI_CLK
SPI Clock
A7
TMR0/PPI_FS2
Timer 0 or Frame Sync 2 for PPI usage
B7
GPIO3/TMR1/PPI_FS1
General Purpose I/O, Timer 1 or Frame Sync 2 for PPI usage
A8
RXINT/GPIO2/PPI_FS3
Receive Interrupt, General Purpose I/O or Frame Sync 3 for PPI usage
B8
GPIO4/PAR_A0
General Purpose I/0 or parallel address LSb
A9, B9
+3.3VD_Edge
+3.3V Digital power supply
A10, B10
+VarD
Variable voltage digital power supply. See power supply section for more details.
C10, D10
CLKIN+/-
Differential Clock Input pair
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EVAL-CED1Z
J1 – MINI USB ‘B’ CONNECTOR
This is used to connect the CED1 to the PC for control and data
transfer
J2 – 2-PIN SCREW TERMINAL POWER CONNECTOR
This connector is used when powering the CED board with a
lab supply. Care must be taken to ensure the external supply is
connected with the correct polarity.
J4 – DC POWER CONNECTOR
When using the CED1 with the supplied power supply, the DC
plug should be connected here. The polarity for this connector
is centre positive.
they can be used directly or rerouted to the other connectors.
Additional processor or microcontroller boards could be
designed and connected here if the user wished to add a
processor to the design. See the Blackfin Ez-Kit manual for
details of these connectors.
J3 – 96-WAY DIN41612 CONNECTOR
This connector has traditionally appeared on most precision
ADC evaluation boards. It contains SPI, SPORT and Parallel
signals as well as programmable digital and 5 separate analog
power supplies. Pin out for this connector is shown in Table 2.
J6 – FPGA JTAG CONNECTOR
This can be used with Altera SignalTap Logic Analyzer and
appropriate hardware to assist with FPGA development and
debug.
Figure 4. 96-way connector pin locations
J8, 9, 10 – 3× 90-WAY BLACKFIN EZ-KIT
CONNECTORS
These three connectors bring across most of the peripheral
signals from the Blackfin Ez-Kit directly into the FPGA where
Table 2. 96-way connector pin-out
Pin Num
Pin Name
Description
A1
SPORT_DT1PRI/
SPI_MOSI/PAR_D16
Sport1 Data Transmit Primary. SPI Master Out, Slave In data line. Parallel Data bit 16.
B1
GPIO3/TMR1/
PPI_FS1
General Purpose I/O bit 3. Timer 1. Parallel Peripheral Interface Frame Sync 1.
C1
SPORT_DR1PRI/
SPI_MISO/PAR_D19
Sport 1 Data Receive Primary. SPI Master In, Slave Out data line. Parallel Data bit 19.
A2
SPORT_TFS1/
SPI_SEL0/PAR_D17
Sport 1 Transmit Frame Sync. SPI Peripheral Chip Select 0. Parallel Data bit 17.
B2
PAR_D0
Parallel Data bit 0 (LSb)
C2
SPORT_RFS1/
SPI_SEL1/PAR_D20
Sport 1 Receive Frame Sync. SPI Peripheral Chip Select 1. Parallel Data bit 20.
A3
SPORT_TSCLK1/
SPI_CLK/PAR_D18
Sport 1 Transmit Serial Clock. SPI Clock. Parallel Data bit 18.
B3
PAR_D1
Parallel Data bit 1.
C3
SPORT_RSCLK1/
SPI_CLK/PAR_D21
Sport 1 Receive Clock. SPI Clock. Parallel Data bit 21.
A4, B4, C4
DGND
Digital Ground
A5
SPORT_DT0PRI/
SPI_SEL7
Sport 0 Data Transmit Primary. SPI Peripheral Chip Select 7
B5
PAR_D2
Parallel Data bit 2
Rev. PrA | Page 5 of 24
EVAL-CED1Z
Preliminary Technical Data
C5
SPORT_DR0PRI/
SPI_SEL4
Sport 0 Data Receive Primary. SPI Peripheral Chip Select 4
A6
SPORT_TFS0/
SPI_SEL6
Sport 0 Transmit Frame Sync. SPI Peripheral Chip Select 6
B6
PAR_D3
Parallel Data bit 3
C6
SPORT_RFS0/
SPI_SEL3
Sport 0 Receive Frame Sync. SPI Peripheral Chip Select 3
A7
SPORT_TSCLK0/
SPI_SEL5
Sport 0 Transmit Serial Clock. SPI Peripheral Chip Select 5
B7
PAR_D4
Parallel Data bit 4
C7
SPORT_RSCLK0/
SPI_SEL2
SPORT 0 Receive Serial Clock. SPI Peripheral Chip Select 2
A8, B8, C8
+VarD (DVDD)
Variable Digital Power Supply. See Power Supply section for further details.
A9
PAR_RD
Parallel Read Strobe
B9
PAR_D5
Parallel Data bit 5
C9
PAR_WR
Parallel Write Strobe
A10
PAR_D22/PAR_A7
Parallel Data bit 22. Parallel Address bit 7 (MSb)
B10
PAR_D6
Parallel Data bit 5
C10
PAR_CS0
Parallel Chip Select 0
A11
SPORT_DT0SEC/
PAR_CS1/PAR_A5
Sport 0 Data Transmit Secondary. Parallel Chip Select 1. Parallel Address bit 5
B11
PAR_D7
Parallel Data bit 7
C11
GPIO6/PAR_D23/
PAR_A6
General Purpose I/O bit 6. Parallel Data bit 23. Parallel Address bit 6
A12, B12, C12
DGND
Digital Ground
A13
TWI_SDA/PAR_CS3/
PAR_A3
Two Wire Interface Serial Data. Parallel Chip Select 3. Parallel Address bit 3
B13
PAR_D8
Parallel Data bit 8
C13
SPORT_DR0SEC/
PAR_CS2/PAR_A4
Sport 0 Data Receive Secondary. Parallel Chip Select 2. Parallel Address bit 4
A14
GPIO5/PAR_A1
General Purpose I/O bit 5. Parallel Address bit 1
B14
PAR_D9
Parallel Data bit 9
C14
TWI_SCL/GPIO7/
PAR_A2
Two Wire Interface Serial Clock. General Purpose I/O bit 7 (MSb). Parallel Address bit 2
A15
GPIO0
General Purpose I/O bit 0 (LSb)
B15
PAR_D10
Parallel Data bit 10
C15
GPIO4/PAR_A0
General Purpose I/O bit 4. Parallel Address bit 0 (LSb)
A16, B16, C16
DGND
Digital Ground
Rev. PrA | Page 6 of 24
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EVAL-CED1Z
A17
TMR0/PPI_FS2
Timer 0. Parallel Peripheral Interface Frame Sync 2
B17
PAR_D11
Parallel Data bit 11
C17
RXINT/GPIO2/
PPI_FS3
Receive Data Interrupt. General Purpose I/O bit 2. Parallel Peripheral Interface Frame Sync 3
A18
PAR_D12
Parallel Data bit 12
B18
PAR_D13
Parallel Data bit 13
C18
PAR_D14
Parallel Data bit 14
A19
CLKOUT
Clock Output
B19
GPIO1
General Purpose I/O bit 1
C19
PAR_D15
Parallel Data bit 15
A20, B20, C20
DGND
Digital Ground
A21-26, B2126, C21-26
AGND
Analog Ground
A27, C27
+VarA
Variable Analog Power Supply. See Power Supply section for further details.
B27
AGND
Analog Ground
A28
N/C
No Connect. Do not use this pin.
B28
AGND
Analog Ground
C28
N/C
No Connect. Do not use this pin.
A29, B29, C29
AGND
Analog Ground
A30
-12VA
-12V Analog Power Supply. See Power Supply section for further details.
B30
AGND
Analog Ground
C30
+12VA
+12V Analog Power Supply. See Power Supply section for further details.
A31, B31, C31
-5VA (AVSS)
-5V Analog Power Supply. See Power Supply section for further details.
A32, B32, C32
+5VA (AVDD)
+5V Analog Power Supply. See Power Supply section for further details.
Rev. PrA | Page 7 of 24
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EVAL-CED1Z
J7 – ANALOG POWER CONNECTOR
J12 – SPORT INTERFACE
If any analog power supplies are required on boards connected
to the CED1 via any connector other than the J3 (96-way), they
can be taken from this pin header. Pin-out details of this
connector are given in Table 3. Further details of the power
supplies are given in the following section.
This standard two row, 0.1-inch connector can be used to
connect any daughter board that utilizes the SPORT interface.
This connector also contains all the SPI and Two Wire Interface
(TWI) signals as well as 5V, 3.3V and the +7V CED board
supply. See Table 4 for details. The pin-out of this connector is
compatible with the Blackfin Stamp and Ez-Kit SPORT
connector. More information on the pin names is given in the
section detailing the 96-way connector.
Table 4. SPORT Connector Pin out
+5VD_Edge
1
2
DGND
3
4
Figure 5. Analog Power Connector Pin Locations
+7V
N/C (Keying Pin)
RESET
5
6
SPORT_TSCLK0/SPI_SEL5
SPORT_RFS0/SPI_SEL3
DGND
SPORT_TFS0/SPI_SEL6
+3.3VD_Edge
+3.3VD_Edge
7
9
11
13
15
8
10
12
14
16
SPORT_DR0PRI/SPI_SEL4
SPORT_DR0SEC
SPORT_DT0SEC
SPORT_DT0PRI/SPI_SEL7
SPORT_RSCLK0/SPI_SEL2
SPI_SS
17
18
SPI_MOSI
SPI_SEL1
SPI_SEL2
SPI_SEL3
SPI_SEL4
SPI_SEL5
SPI_SEL6
SPI_SEL7
DGND
19
21
23
25
27
29
31
33
20
22
24
26
28
30
32
34
SPI_MISO
SPI_CLK
TWI_SDA
TWI_SCK
RXINT/GPIO2/PPI_FS3
GPIO3/TMR1/PPI_FS1
TMR0/PPI_FS2
DGND
Table 3. Analog Power Connector pin-out
Function
Description
Pin
No
1
+12VA_Edge +12V Analog Supply
2
-12VA_Edge -12V Analog Supply
3, 6, 8 AGND
Analog Ground
4
+5VA_Edge
+5V Analog Supply
5
-5VA_Edge
-5V Analog Supply
7
+VarA
Variable Voltage Analog Supply.
See Power Supply Section for
more details.
Rev. PrA | Page 8 of 24
Preliminary Technical Data
EVAL-CED1Z
The inclusion of the SPI signals on this connector allows for
separate data and configuration interfaces if required. See Table
6 for details of this connector. More information on the pin
names is given in the section detailing the 96-way connector.
J13 – SPI INTERFACE
Using the SPI connector instead of the SPORT should only be
considered when the user is satisfied that the device being
connected is completely compatible with the SPI specification.
This implies that only 8- or 16-bit active low framing is
required. See Table 5 for pin-out details of this connector. This
connector is compatible with the SPI connector on the Blackfin
Stamp and Ez-Kits. More information on the pin names is given
in the section detailing the 96-way connector.
Table 6. PPI Connector Pin out
+5VD_Edge
+5VD_Edge
+3.3VD_Edge
+3.3VD_Edge
PAR_D1
PAR_D3
PAR_D5
PAR_D7
PAR_D9
PAR_D11
PAR_D13
PAR_D15
SPI_SEL2
1
3
5
7
9
11
13
15
17
19
21
23
25
2
4
6
8
10
12
14
16
18
20
22
24
26
SPI_SS
27
28
+7V
N/C (Keying Pin)
CLKOUTP_EXT
PAR_D0
PAR_D2
PAR_D4
PAR_D6
PAR_D8
PAR_D10
PAR_D12
PAR_D14
SPI_SEL3
SPI_SEL1
RESET
RxInt/GPIO2/PPI_FS3
GPIO3/TMR1/PPI_FS1
TMR0/PPI_FS2
DGND
DGND
DGND
29
31
33
35
37
39
30
32
34
36
38
40
SPI_MOSI
SPI_MISO
SPI_CLK
TWI_SDA
TWI_SCK
DGND
Table 5. SPI Connector Pin out
+5VD_Edge
+5VD_Edge
SPI_MOSI
1
3
5
2
4
6
+3.3VD_Edge
+3.3VD_Edge
SPI_MISO
RESET
7
8
SPI_CLK
SPI_SEL1
9
10
SPI_SS
SPI_SEL3
SPI_SEL5
SPI_SEL7
N/C (Keying Pin)
+7V
11
13
15
17
19
12
14
16
18
20
SPI_SEL2
SPI_SEL4
SPI_SEL6
DGND
DGND
J14 – PPI INTERFACE
This connector is intended to allow attachment of daughter
boards designed to connect to the PPI Connector on the
Blackfin Stamp and Ez-Kit. However, with the signals provided,
it should be possible to connect to most parallel interface
devices needing up to 16 data bits and multiple control signals.
CONNECTOR PART NUMBERS
Table 7. Connector Part Numbers
Ref.
Des.
Description
Manufacturer
Part Number
Mating Connector
J1
USB Mini-B connector
Molex
565790576
Standard Mini-B USB Cable
J2
2-pin screw terminal
Camden Electronics
CTB5000/2
Cables inserted directly
J3
96-Way 90 DIN41612 socket
Harting
0973 296 6801
0903 196 6921
J4
DC Barrel connector, 2mm centre
Kycon
KLDX-SMT2-0202-A
Cliff - DCPP1 (FC68147)
J5
LVDS connector
Tyco Electronics
1469028-1
1469169-1
J6
10-Pin, 2 row standard 0.1” pitch header
Harwin
M20-8760542
M20-7830546
J8-10
90-way Micro-strip Terminal
Samtec
TFC-145-X2-FD-A
SFC-145-T2-FD-A
J12
34-Pin, 2 row standard 0.1” pitch header
Harwin
M20-8761742
M20-7831746
J13
20-Pin, 2 row standard 0.1” pitch header
Harwin
M20-8761042
M20-7831046
J14
40-Pin, 2 row standard 0.1” pitch header
Harwin
M20-8762042
M20-7832046
Rev. PrA | Page 9 of 24
EVAL-CED1Z
Preliminary Technical Data
POWER SUPPLIES
The CED board provides multiple power supplies that are made
available for use with connected boards. A single 7V supply is
required for the CED board and this is used to power the board
itself and the supplies for boards connected to it. A resettable
2A fuse limits the current that can be drawn from the supply
thus limiting the power consumption of the CED and any
attached boards.
On it’s own without any converter boards attached, the idle
current of the CED is approximately 220 mA. When accessing
SRAM for example, the current drawn by the CED board itself
can increase significantly. Users designing boards to operate
with the CED that wish to use the supplies provided must bear
in mind the total available power when calculating their power
requirements.
While the supplies generated on the CED are kept as clean as
possible, designers of boards connected to the CED must ensure
that all devices and supplies are adequately decoupled. This will
prevent noise being fed back onto the power supplies of the
CED. Excessive noise introduced on to the power supplies may
cause the CED or attached boards to malfunction.
The voltage and current ratings of the supplies listed in Table 8
are defined to be absolute maximum limits. While fuses and
thermal overload protection have been provided in the power
supply circuitry, attempting to draw more current from a
particular supply or exceeding the total power available from a
combination of supplies may cause damage to the CED board.
Table 8. Power Supplies
Name
+VarA
-12VA
+12VA
-5VA
+5VA
+5VD
+3.3VD
+VarD
+7V
Voltage
+1.5V to +5.5V
-12V ±5%
+12V ±5%
-5V ±5%
+5V ±5%
+5V ±5%
+3.3V ±5%
+1.5V to +5.5V
+7V ±5%
Max. Current
300mA
100mA
100mA
100mA
500mA
500mA
300mA
300mA
2A
Test Conditions / Comments
Regulation may suffer at lower voltages.
Fuse limited at 100mA.
Fuse limited at 100mA.
Fuse limited at 100mA.
Regulator rated for 500mA but thermally limited.
Regulator rated for 500mA but thermally limited.
Thermally limited.
Regulation may suffer at lower voltages.
Total current that can be drawn through board including all other supplies. Fuse limited.
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Ordering Information
ESD CAUTION
ORDERING GUIDE
Model
EVAL-CED1Z1
1
Description
Converter Evaluation and
Development Board
Z = RoHS Compliant Part.
©2007 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
PR07072-0-9/07(PrA)
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