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Template Revision 2.1 Design Name always "TE Series Name" + optional CPLD Name + "CPLD"
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Overview
CPLD Device with designator U5: LCMX02-1200HC.
Feature Summary
- JTAG
- UART
- I2C
- Power
- Boot Mode
- Reset
- SD
- LED
Firmware Revision and supported PCB Revision
See Document Change History
Product Specification
Port Description
Name / opt. VHD Name | Direction | Pin | Pullup/Down | Bank Power | Description |
---|---|---|---|---|---|
UART_TXD | in | 77 | UP | 3.3V | UART0 TX / Sends data to MIO13. MIO13 is connected to B2B JB1 Pin 98. ( HSS console ). In hardware is connected to FT230XQ (U12) chip pin TXD indirectly. |
UART_RXD | out | 84 | UP | 3.3V | UART0 RX / Recieves data from MIO12. MIO12 is connected to B2B JB1 Pin 100. ( HSS console ). In hardware is connected to FT230XQ (U12) chip pin RXD indirectly. |
MIO12 | in | 100 | NONE | 3.3V | Sends data to UART_RX / In hardware is connected to B2B JB1-pin 100. |
MIO13 | out | 99 | NONE | 3.3V | Read data from UART_TX / In hardware is connected to B2B JB1-pin 98. |
FT_B_RX | out | 138 | NONE | 3.3V | FTDI UART RX (UART1 RX) / In hardware is connected to FTDI chip U4 pin 33. (Linux console) |
FT_B_TX / BDBUS0 | in | 139 | UP | 3.3V | FTDI UART TX (UART1 TX) / In hardware is connected to FTDI chip U4 pin 32. (Linux console) |
MIO14 | out | 105 | NONE | 3.3V | Receives data from FT_B_TX of FTDI chip / In hardware is connected to B2B JB1-pin 91. |
MIO15 | in | 95 | NONE | 3.3V | Sends data to FT_B_RX of FTDI chip / In hardware is connected to B2B JB1-pin 86. |
CM0 | in | 76 | UP | 3.3V | DIP switch S2-2 / used as JTAG Selection/ If CM0 set to high (S2-2 OFF) → Access to CPLD of module otherwise access to FPGA of module. |
CM1 | in | 75 | UP | 3.3V | DIP switch S2-1 / Used to change PGOOD pin state /If CM1 set to high (S2-1 OFF) → PGOOD = '1' otherwise '0' |
EN1 | out | 81 | UP | 3.3V | B2B Power Enable / In firmware EN1 is connected to 3.3V permanently. |
FLED_1 | inout | 28 | NONE | 3.3V | LED (D3-red) / Shows the status of PGOOD or shows the FT_B_TX (UART1 RXD). |
FLED_2 | inout | 27 | NONE | 3.3V | LED (D4-green) / Shows the status of PGOOD or shows the FT_B_RX (UART1 TXD). |
ULED1 | out | 117 | NONE | 3.3V | LED (D1-red) / Shows the status of CM0 or shows the UART_RXD (UART0 RX). |
ULED2 | out | 115 | NONE | 3.3V | LED (D2-green) / Shows the status of CM0 or shows the UART_TXD (UART0 TX). |
PHY_LED1 | out | 86 | DOWN | 3.3V | Shows the status of NOSEQ and MIO0 signals. |
PHY_LED1R | out | 92 | NONE | 3.3V | Shows the status of NOSEQ and MIO0 signals. |
PHY_LED2 | out | 85 | NONE | 3.3V | Shows the status of NOSEQ and MIO0 signals. |
PHY_LED2R | out | 91 | NONE | 3.3V | Shows the status of NOSEQ and MIO0 signals. |
JTAGEN | --- | 120 | --- | 3.3V | Enable JTAG access to CPLD for Firmware update (zero: normal IOs, one: CPLD JTAG access). Selectable over S2-3 |
M_TCK | in | 131 | NONE | 3.3V | JTAG from/to FTDI |
M_TDI | in | 136 | NONE | 3.3V | JTAG from/to FTDI |
M_TDO | out | 137 | NONE | 3.3V | JTAG from/to FTDI |
M_TMS | in | 130 | NONE | 3.3V | JTAG from/to FTDI |
TCK_B | out | 1 | NONE | 3.3V | JTAG from/to Module |
TDI_B | out | 3 | NONE | 3.3V | JTAG from/to Module |
TDO_B / C_TDO | in | 2 | UP | 3.3V | JTAG from/to Module |
TMS_B | out | 4 | NONE | 3.3V | JTAG from/to Module |
MIO0 | in | 94 | UP | 3.3V | This pin is connected to DIP swith S2-4 and B2B JB1 Pin 88. This signal is forwarded to MODE signal in firmware. |
MIO9 | out | 96 | NONE | 3.3V | SD SD_CD signal CD signal is directed to this signal in firmware, if PGOOD = '1'. / In hardware is connected to B2B JB1 pin 92. |
MODE | out | 83 | NONE | 3.3V | Dip switch S2-4 (MIO0) is connected to MODE pin. This pin in hardware is connected to B2B JB1 pin 31. |
NOSEQ | inout | 78 | UP | 3.3V | NOSEQ can be set or reset by i2c interface in linux console, if an i2c interface is prepared for this already in linux. |
PGOOD | inout | 82 | UP | 3.3V | PGOOD can be set or reset via CM1 ( dip switch S2-1). In hardware is connected to B2B JB1 pin 29. |
PROGMODE | out | 104 | UP | 3.3V | Enable B2B Module JTAG access to CPLD for Firmware update |
RESIN | out | 119 | NONE | 3.3V | Module Reset pin on B2B JB2 pin 17. |
S1 | in | 114 | UP | 3.3V | Push Button / Used as module Reset. In hardware is connected to S1 reset pushbutton. |
SDA / MIO11 | inout | 97 | UP | 3.3V | I2C Data |
SCL /MIO10 | in | 98 | UP | 3.3V | I2C Clock (100kHz) |
X0 | inout | 39 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X1 | inout | 38 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X2 | inout | 40 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X3 | inout | 41 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X4 | inout | 42 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X5 | inout | 43 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X6 | inout | 44 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X7 | inout | 45 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X8 | inout | 47 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X9 | inout | 48 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X10 | inout | 49 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X11 | inout | 50 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X12 | inout | 52 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X13 | inout | 54 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X14 | inout | 55 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X15 | inout | 56 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X16 | inout | 59 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
X17 | inout | 60 | NONE | 3.3V | This port can be read or written via GPIO_input register and GPIO_output register respectively. |
BCBUS0 | in | 122 | NONE | 3.3V | currently_not_used |
BCBUS1 | in | 121 | NONE | 3.3V | currently_not_used |
BDBUS2 | in | 133 | NONE | 3.3V | currently_not_used |
BDBUS3 | in | 132 | NONE | 3.3V | currently_not_used |
BDBUS4 | in | 128 | NONE | 3.3V | currently_not_used |
BDBUS5 | in | 127 | NONE | 3.3V | currently_not_used |
BDBUS6 | in | 126 | NONE | 3.3V | currently_not_used |
BDBUS7 | in | 125 | NONE | 3.3V | currently_not_used |
ADBUS4 | in | 143 | NONE | 3.3V | currently_not_used |
ADBUS7 | in | 142 | NONE | 3.3V | currently_not_used |
ACBUS4 | in | 141 | NONE | 3.3V | currently_not_used |
ACBUS5 | in | 140 | NONE | 3.3V | currently_not_used |
USB_OC | in | 73 | NONE | 3.3V | This port can be read via GPIO_input register. |
E_SD_CMD | in | 110 | NONE | 3.3V | currently_not_used |
E_SD_SCLK | in | 109 | NONE | 3.3V | currently_not_used |
E_SD_DAT0 | in | 106 | NONE | 3.3V | currently_not_used |
E_SD_DAT1 | in | 107 | NONE | 3.3V | currently_not_used |
E_SD_DAT2 | in | 112 | NONE | 3.3V | currently_not_used |
E_SD_DAT3 | in | 111 | NONE | 3.3V | currently_not_used |
SD_SEL | out | 113 | NONE | 3.3V | Set to GND / currently_not_used |
SD_CD | in | 93 | UP | 3.3V | This port is forwarded to PHY_LED2 LED. If SD card is plugged , this LED PHY_LED2 is on. This port forwarded to MIO9 too, if PGOOD = '1'. |
DUMMY | out | 74 | NONE | 3.3V | No Connect |
Functional Description
Dip Switch
DIP Switch S2 | ||||
---|---|---|---|---|
S2-1 | S2-2 | S2-3 | S2-4 | Description |
CM1 | CM0 | JTAGEN | MIO0 | JTAGEN set carrier board CPLD into the chain for firmware update. |
JTAG
JTAG signals routed directly through the CPLD to module in B2B connector.
TEB2000 CPLD can be selected with JTAGEN (DIP-S2-3). Access between CPLD of the TEB2000 board and the plugged module same as TEM0007 can be multiplexed via JTAGEN (connected to S2-3) (logical . Logical one is for CPLD, accessing to CPLD of TEB2000 (OFF) and logical zero is for the module (ON).
Access to FPGA of the plugged module or its CPLD can be TEB2000 CPLD can be selected with JTAGEN (DIP-S2-3). Module FPGA/CPLD access can be switched with PROGMODE which is driven by CM0 (DIP -switch S2-2). CM1 and CM0 are pulled up in CPLD internally.
S2-2 | S2-3 | CM0 (PROGMODE) (S2-2) | JTAGEN (S2-3) | Description |
---|---|---|---|---|
OFF | OFF | 1 | 1 | Access to TEB2000 CPLD |
OFF | ON | 1 | 0 | Access to CPLD of B2B Module |
ON | OFF | 0 | 1 | Access to TEB2000 CPLD |
ON | ON | 0 | 0 | Access to FPGA of B2B Module |
EN1
EN1 is set to one in firmware permanently.
NOSEQ
NOSEQ pulled up to 3.3V. NOSEQ can be set or reset by i2c interface in linux console, if an i2c interface is already prepared for this the i2c interface in linux.
NOSEQ | Connected to | Related command in linux console | Description |
---|---|---|---|
'0' | GPIO_output[16] | i2cset -y <related bus> 0x20 0x02 0x00 | It is depends on the linux design. For example → i2cset -y 0 0x20 0x02 0x00 |
'1' | GPIO_output[16] | i2cset -y <related bus> 0x20 0x02 0x01 | It is depends on the linux design. For example → i2cset -y 0 0x20 0x02 0x01 |
To read the NOSEQ status, GPIO_input[16] must be read like the following instruction:
i2cget -y <related bus> 0x20 0x02
For example --> i2cget -y 0 0x20 0x02
Note that the bus number depends on the linux design and can be varied for different designs.
PGOOD
PGOOD pulled up to 3.3V in CPLD internally. PGOOD pin can be set or reset by user. If CM1 set to high (S2-1 OFF) , PGOOD will be set to high otherwise PGOOD is set to low.PGOOD is set to low.
PGOOD | Condition | Description |
---|---|---|
'0' | CM1 = '0' | Dip switch S2-1 ON |
'1' | CM1 = '1' | Dip switch S2-1 OFF |
MODE
This pin can be controlled with dip switch S2-4 (MIO0).
MODE |
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Condition | Description | |
---|---|---|
'0' |
MIO0 = '0' | Dip switch S2- |
4 ON |
'1' |
MIO0 = '1' | Dip switch S2- |
4 OFF |
Reset
RESIN is driven by S1 (Push Button). Button is debounced.
Pin | CPLD Pin | Connected to | Description |
---|---|---|---|
RESIN | 119 | B2B JB2 Pin 17 | Active-low |
Boot Mode
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Note that for For plugged polarfire SoC module same as TEM0007 the boot mode can not be selected via MODE and PGOOD pins, because polarfire SoC boot mode can be selected only via HSS in design for TEM0007. The above mentioned boot mode table is considered for other modules in the future.
UART
MIO14 is driven by BDBUS0 (FTDI RX). BDBUS1 (FTDI TX) is driven by MIO15 . MIO13 is driven by UART_TXD. UART_RXD is driven by MIO12.
UART 0 (HSS Console) | ||||||
---|---|---|---|---|---|---|
CPLD UART Input Pin | CPLD Pin | Connected to | CPLD UART Output Pin | CPLD Pin | Connected to | Description |
MIO12 | 100 | B2B-JB1-100 | UART_RXD | 84 | U8-Pin 11 | |
UART_TXD | 77 | U8-Pin 13 | MIO13 | 99 | B2B-JB1-98 | |
UART 1 (Linux Console) | ||||||
CPLD UART Input Pin | CPLD Pin | Connected to | CPLD UART Output Pin | CPLD Pin | Connected to | Description |
FT_B_TX | 139 | FTDI Chip U4 Pin 32 | MIO14 | 105 | B2B-JB1-91 | |
MIO15 | 95 | B2B-JB1-86 | FT_B_RX | 138 | FTDI Chip U4 Pin 33 |
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SD
SD selection (SD_SEL) is set to GND (SD Card slot). MIO9 is switched to SD_CD (Card Detect) and its status depends on SD_CD .
On-board LEDs
LED | Designator | LED Status | Condition | Description |
---|---|---|---|---|
ULED1 (Red) | D1 | Fast blink red | Access to CPLD of module ( CM0 = '1') → S2-2 = OFF | |
Connected to UART1_RX | Otherwise | |||
ULED2 (Green) | D2 | Fast blink green | Access to CPLD of module ( CM0 = '1') → S2-2 = OFF | |
Connected to UART1_TX | Otherwise | |||
FLED_1 (Red) | D3 | Fast blink red | PGOOD = '0' ( CM1 = '1' ) → S2-1 = ON | |
Connected to UART0_RX | Otherwise | |||
FLED_2 (Green) | D4 | Fast blink green | PGOOD = '0' ( CM1 = '1' ) → S2-1 = ON | |
Connected to UART0_TX | Otherwise |
LED | Designator | LED Status | Condition | Description |
---|---|---|---|---|
PHY_LED1 (Green LED Anode, Yellow LED Cathode) / PHY_LED1R (Green LED Cathode, Yellow LED Anode) | J14B | Fast blink yellow | NOSEQ = '0' and MIO0 = '0' | In Linux console enter: i2cset -y 0 0x20 0x02 0x00 and S2-4 = ON* |
Slow blink yellow | NOSEQ = '0' and MIO0 = '1' | In Linux console enter: i2cset -y 0 0x20 0x02 0x00 and S2-4 = OFF* | ||
Fast blink yellow green | NOSEQ = '1' and MIO0 = '0' | In Linux console enter: i2cset -y 0 0x20 0x02 0x01 and S2-4 = ON* | ||
Slow blink yellow green | NOSEQ = '1' and MIO0 = '1' | In Linux console enter: i2cset -y 0 0x20 0x02 0x01 and S2-4 = OFF* | ||
PHY_LED2 (Green LED Cathode, Yellow LED Anode) / PHY_LED2R (Green LED Anode, Yellow LED Cathode) | J14C | ON | SD card plugged (SD_CD = '0') | |
OFF | Otherwise |
*Note: The related bus number of I2C can be varied and it depends on the Linux design. For example the bus number is 0 here.
I2C to GPIO
I2C to GPIO is a subsystem in firmware of CPLD that provides an i2c interface that writes received data to GPIO_output 8 bit registers or reads 8 bit GPIO_input registers and send read data to i2c bus.
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I2C bus is connected to MIO10 ( SCL signal) and MIO11 (SDA signal). MIO10 to MIO15 are direct connection between CPLD of TEB2000 and FPGA on the module (for example TEM0007) through B2B connector. If in FPGA design exists no i2c interface for MIO10 and MIO11, this block will be unused. More information about MIO10 to MIO15 are shown in the following table for TEM0007 modules and TEB2000 carrier board:
B2B Pin | B2B JB1-96 | B2B JB1-94 | B2B JB1-100 | B2B JB1-98 | B2B JB1-91 | B2B JB1-86 | |
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Carrier board | Label / Firmware function | Label / Firmware function | Label / Firmware function | Label / Firmware function | Label / Firmware function | Label / Firmware function | Description |
TEB2000 | MIO10 / I2C-SCL | MIO11 / I2C-SDA | MIO12 / UART0_RX | MIO13 / UART0_TX | MIO14 / UART1-TX | MIO15 / UART1-RX | MIO10 and MIO11 are used in CPLD firmware as I2C SCL and SDA respectively. |
B2B Pin | B2B JM1-95 | B2B JM1-93 | B2B JM1-99 | B2B JM1-97 | B2B JM1-92 | B2B JM1-85 | |
Module | Label / Chip pin | Label / Chip pin | Label / Chip pin | Label / Chip pin | Label / Chip pin | Label / Chip pin | Description |
TEM0007 | I2C_CON_SCL / A3 | I2C_CON_SDA / E3 | UART_CON_TX / C2 | UART_CON_RX / D3 | UART_RX / H2 | UART_TX / H5 | MIO10 and MIO11 are already set in test_design of TEM0007 as SCL and SDA respectively. |
I2C to GPIO registers access methods
I2C to GPIO subsystem has 4 output and 4 input 8 bit registers. These registers can be written or read in linux as shown in the following tables:
GPIO input register | Address | Read command in Linux* | Description |
---|---|---|---|
GPIO_input[7:0] | 0x00 | i2cget -y 0 0x20 0x00 | 0x20 is device address. ( I2C to GPIO address). |
GPIO_input[15:8] | 0x01 | i2cget -y 0 0x20 0x01 | 0x20 is device address. ( I2C to GPIO address). |
GPIO_input[23:16] | 0x02 | i2cget -y 0 0x20 0x02 | 0x20 is device address. ( I2C to GPIO address). |
GPIO_input[31:24] | 0x03 | i2cget -y 0 0x20 0x03 | 0x20 is device address. ( I2C to GPIO address). |
GPIO output register | Address | Write command in Linux* | Description |
---|---|---|---|
GPIO_output[7:0] | 0x00 | i2cset -y 0 0x20 0x00 <8bit <data>data> | 0x20 is device address. ( I2C to GPIO address). 0x00 is register address. |
GPIO_output[15:8] | 0x01 | i2cset -y 0 0x20 0x01 <8bit <data>data> | 0x20 is device address. ( I2C to GPIO address). 0x01 is register address. |
GPIO_output[23:16] | 0x02 | i2cset -y 0 0x20 0x02 <data><8bit data> | 0x20 is device address. ( I2C to GPIO address). 0x02 is register address. |
GPIO_output[31:24] | 0x03 | i2cset -y 0 0x20 0x03 <data><8bit data> | 0x20 is device address. ( I2C to GPIO address). 0x03 is register address. |
*The related bus number can be varied with Linux design. For example the bus number is 0.
I2C to GPIO registers
GPIO input registers
The following port or signals can be read via GPIO_input[ ] registers.
GPIO_input[7:0] (address 0x00) | ||
---|---|---|
GPIO input bit | Port/Signal | Description |
0 | CPLD_REVISION [0]* | |
1 | CPLD_REVISION [1]* | |
2 | CPLD_REVISION [2]* | |
3 | CPLD_REVISION [3]* | |
4 | CPLD_REVISION [4]* | |
5 | CPLD_REVISION [5]* | |
6 | CPLD_REVISION [6]* | |
7 | CPLD_REVISION [7]* |
*Note: CPLD_REVISION[7:0] = Firmware version
GPIO_input[15:8] (address 0x01) | ||
---|---|---|
GPIO input bit | Port/Signal | Description |
8 | X0 | |
9 | X1 | |
10 | X2 | |
11 | X3 | |
12 | X4 | |
13 | X5 | |
14 | X6 | |
15 | X7 |
GPIO_input[23:16] (address 0x02) | ||
---|---|---|
GPIO input bit | Port/Signal | Description |
16 | NOSEQ | |
17 | X8 | |
18 | X9 | |
19 | X10 | |
20 | X11 | |
21 | X12 | |
22 | X13 | |
23 | X14 |
GPIO_input[31:24] (address 0x03) | ||
---|---|---|
GPIO input bit | Port/Signal | Description |
24 | X15 | |
25 | X16 | |
26 | X17 | |
27 | CM0 | |
28 | CM1 | |
29 | PGOOD | |
30 | S1 | |
31 | USB_OC |
GPIO output registers
The following port or signals can be written via GPIO_output[ ] registers.
GPIO_output[7:0] (address 0x00) | ||
---|---|---|
GPIO output bit | Port/Signal | Description |
0 | Reserved | |
1 | Reserved | |
2 | Reserved | |
3 | Reserved | |
4 | Reserved | |
5 | Reserved | |
6 | Reserved | |
7 | Reserved |
GPIO_output[15:8] (address 0x01) | ||
---|---|---|
GPIO output bit | Port/Signal | Description |
8 | X0 | |
9 | X1 | |
10 | X2 | |
11 | X3 | |
12 | X4 | |
13 | X5 | |
14 | X6 | |
15 | X7 |
GPIO_output[23:16] (address 0x02) | ||
---|---|---|
GPIO output bit | Port/Signal | Description |
16 | NOSEQ | |
17 | X8 | |
18 | X9 | |
19 | X10 | |
20 | X11 | |
21 | X12 | |
22 | X13 | |
23 | X14 |
GPIO_output[31:24] (address 0x03) | ||
---|---|---|
GPIO output bit | Port/Signal | Description |
24 | X15 | |
25 | X16 | |
26 | X17 | |
27 | Reserved | |
28 | Reserved | |
29 | Reserved | |
30 | Reserved | |
31 | Reserved |
Appx. A: Change History and Legal Notices
Revision Changes
- REV01
I2C port added.
I2C to GPIO component added.
NOSEQ can be changed via I2C port.
UART1 port added. This board has two UART ports. (UART0 and UART1)
New construction for UART0 and UART1 serial interfaces
Generic parameter CPLD_REVISION added.
JTAG timing correction
LED states and related ports/signals are changed. --> SD_CD, NOSEQ, MIO0, PGOOD, CM0 and CM1
New mapping for related ports/signals to GPIO_input and GPIO_output registers
New Ports are defined according to the schematic or revision 1
Document Change History
To get content of older revision got to "Change History" of this page and select older document revision number.
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| REV01 | REV01 |
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Appx. B: Legal Notices
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