Trizeps6 CPLD

This page explains the default-functionality of the Trizeps6 CPLD.
Keith & Koep can deliver Trizeps6 with customized CPLD-content. In example if not needed, the 26 address-pins of the Trizeps6 may be used as GPIO or one of the UART's can be multiplexed to allow even more serial-ports.

Currently there are two basic CPLD-versions:

for Trizeps6 with WLAN/Bluetooth ( 26060 and 26080)
for Trizeps6 without WLAN/Bluetooth ( 26020 and 26040)

The main difference between these modules is, that the ones with WLAN/Bluetooth only have an 8Bit multiplexed Address/Databus.

Default functions:

Decode the multiplexed Address-/Databus to form 4 ChipSelects with 64MB of address-space each.
Power-Management of the module.
Control special-functions like GPIO and PWM.

Address-Mapping

The CPLD is connected to CS0 of the processor (0x80000000 physical-address).

A27	A26	A25	Offset	Description
0	0	-	0x00000000	CS 64MB ( reserved for future use)
0	1	-	0x04000000	CS1 64MB
1	0	-	0x08000000	CS3 64MB
1	1	0	0x0C000000	CS4 32MB
1	1	1	0x0E000000	CPLD-Registers

Modules without WLAN/BT

For modules without WLAN/BT, you simply do an 16bit data-access with the given offset:

volatile short *padr = (volatile short*)PLATFORM_BASE_VA_CS3;
*padr = 123;

Modules with WLAN/BT

For modules which use D[15..8] for WLAN, Keith & Koep offers 2 options:

1. Reduced Address-Space (default)

Because D[15..8] are latched to create the A[31..24] and A[15..8] address-lines and are not availlable on modules which use them for WLAN, the CPLD only decodes a reduced address space and shifts A[23..16] by four bits to the left.

Access	Address	Description
1	0xooaaoobb	a: Address 27..20; bb: Address 7..0 → 0x0aa000bb

With this configuration it is still possible to access 8192 addresses (A[0] unused).

#define PLATFORM_BASE_PA_CSX     0x80000000
#define A20                      (1<<16)
#define A21                      (1<<17)
#define A22                      (1<<18)
#define A23                      (1<<19)
#define A24                      (1<<20)
#define A25                      (1<<21)
#define A26                      (1<<22)
#define A27                      (1<<23)
#define OFFSET_CS3                A27
#define CUSTOM_REG_CS3_A22_PA   ((UNSIGNED LONG) PLATFORM_BASE_PA_CSX+OFFSET_CS3+A22)            

// Write to Custom Reg on CS3 with A22 set.
(*volatile short *)CUSTOM_REG_CS3_A22_PA=0x1234;

2. Whole Address-Space

To be able to use the whole address-space on modules which use D[15..8] for WLAN, you must do two successive reads/writes. Read/Writes to the internal CPLD-registers only need one access!! The address of the first read specifies address-lines 27..24 and 7..0.
The second read/write specifies the address-lines 23..16 and 15..0.

Access	Address	Description
1	0xoooaoobb	a: Address 27..24; bb: Address 7..0
2	0xooccoodd	cc: Address 23..16; dd: Address 15..8

o == don't care.
Data of the first access is ignored!
Write-Example:

    volatile short *padr;
    padr = (volatile short*)( csbase + (offset & 0xFF00FFFF) + ((offset>>8)&0x00FF0000));
    *padr = 0; // dummy write to latch A[27..24] and A[7..0];
    padr = (volatile short*)( csbase + (offset & 0xFFFFFF00) + ((offset>>8)&0x000000FF)); 
    *padr = value; // latch A[23..16], A[15..8] and write value to address;

When using Windows Embedded CE, you may use following drvlib_app-functions: DFIOMapSpace , DFIOWrite, DFIORead.

CPLD-Registers

A4	A3	A2	A1	Offset	Description	Write	Read	Virtual Bootloader-Address
0	0	0	s/c	0x0000	REG_CONTROL	Control/Reset	Module Version	0xbf7e0000, 0xbf7e0002
0	0	1	s/c	0x0004	REG_FEATURE	Features/Pin-Routing	Feature, PCB-Version	0xbf7e0004, 0xbf7e0006
0	1	0	s/c	0x0008	REG_HIBERNATE	Hibernate/Wake-Control	-	0xbf7e0008, 0xbf7e000a
0	1	1	-	0x000c	REG_PWM	PWM(6..0)	-	0xbf7e000c
1	0	0	s/c	0x0010	REG_PINLDR	Pin-Direction	Pin-Level	0xbf7e0010, 0xbf7e0012
1	0	1	s/c	0x0014	REG_PINSET	Pin-Level	-	0xbf7e0014, 0xbf7e0016
1	1	0	s/c	0x0018	REG_TTLIO	TTL-Output-Port	TTL-Input-Port	0xbf7e0018, 0xbf7e001a

s/c:
0 - set specified bits.
1 - clear specified bits.
-: don't care.

REG_CONTROL (0xbf7e0000, 0xbf7e0002)

Bit	Description
0	-
1	-
2	Reset Audio/Touch Codec
3	Reset Ethernet-Phy
4	Reset WLAN
5	Reset Bluetooth
6	-
7	-

read: Reading this register returns the CPLD-Version.

REG_FEATURE (0xbf7e0004, 0xbf7e0006)

Write
Bit	Description
0	Route UART3 to SODIMM
1	Route UART3 to Bluetooth
2	CompactFlash-mode (disable UART3)
3	Use TTLIO (see description of TTLIO-register)
4	Output PWM on SODIMM-Pin 69
5	Output PWM on SODIMM-Pin 77
6	Output PWM on SODIMM-Pin 106
7	Route Bluetooth-PCM to SODIMM ( 188(A16): PCM_SYNC, 186(A17): PCM_CLK, 184(A18): PCM_OUT, 146(A19): PCM_IN)

Read
Bit	Description
0	0: Use Whole Address-Space (16Bit DFIO), 1: Use Reduced Address-Space (8Bit DFIO).
1	-
2	-
3	-
7..4	Trizeps VI PCB Revision

REG_HIBERNATE (0xbf7e0008, 0xbf7e000a )

Bit	Description
0	Enter Hibernate Mode
1	Wake on Touch
2	Wake on EXT_WAKEUP (PMIC)
3	Wake on IRQ=High (SODIMM-Pin 43)
4	Wake on Reset (CPLD Ver >= 4)
5	Wake on IRQ=Low (SODIMM-Pin43)(CPLD Version >= 7)
6	-
7	-

REG_PWM (0xbf7e000c)

D[6..0] PWM-Match-value.

REG_PINLDR (0xbf7e0010, 0xbf7e0012)

Bit	Description	Use with this GPIO-number in GPIO-functions
0	SODIMM-Pin 69	127
1	SODIMM-Pin 100 (PSKTSEL)	126
2	SODIMM-Pin 98 (CF_nREG)	125
3	SODIMM-Pin 104 (CF_nIOIS16)	124
4	SODIMM-Pin 93 (RDnWR)	130
5	Route CF_nIOIS16 (SODIMM-Pin 104) to IRQ (SODIMM-Pin 43)	-
6	-	-
7	-	-

read: read level of pin.
write: write direction of pin. 1:output, 0:input.

REG_PINSET (0xbf7e0014, 0xbf7e0016)

Bit	Description	Use with this GPIO-number in GPIO-functions
0	SODIMM-Pin 69	127
1	SODIMM-Pin 100 (PSKTSEL)	126
2	SODIMM-Pin 98 (CF_nREG)	125
3	SODIMM-Pin 104 (CF_nIOIS16)	124
4	SODIMM-Pin 93 (RDnWR)	130
5	-	-
6	-	-
7	-	-

read: -.
write: write level of pin.

REG_TTLIO (0xbf7e0018, 0xbf7e001a)

Uses address pins as input and output-pins, when USE_TTLIO is set in REG_FEATURE.

Bit	Description
	Write	Read
0	A8	A0
1	A9	A1
2	A10	A2
3	A11	A3
4	A12	A4
5	A13	A5
6	A14	A6
7	A15	A7

read: read level of pin.
write: write level of pin.