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Evaluation Board TSC695..............................................................................................
User Guide
Evaulation Board TSC695 User Gu
Table of Contents
Section 1Introduction ........................................................................................... 1-1
1.1 Description ................................................................................................1-11.2 Features....................................................................................................1-1
Section 2Processor.............................................................................................. 2-5
2.1 Processor Package ...................................................................................2-52.3 Data Buffers Control..................................................................................2-72.4 Processor Socket Part Number.................................................................2-82.5 Emulation Capability .................................................................................2-82.6 Debug Jumper ..........................................................................................2-82.7 PROM8 Jumper ........................................................................................2-8
Section 3ROM (or Flash) ................................................................................... 3-11
3.1 Flash 8-bit ...............................................................................................3-113.2 Flash 40-bit .............................................................................................3-113.4 Flash - Expansion SIMM.........................................................................3-133.5 Example of Flash - Expansion SIMM......................................................3-14
Section 4RAM.................................................................................................... 4-15
4.1 RAM - Bank 0..........................................................................................4-154.2 RAM - Bank 1..........................................................................................4-154.4 RAM - Expansion SIMM B ......................................................................4-164.5 Example of RAM - Expansion SIMM.......................................................4-17
Section 5FPGA .................................................................................................. 5-19
5.1 FPGA Part Number .................................................................................5-195.2 FPGA Socket Part Number .....................................................................5-195.3 FPGA Pin-out ..........................................................................................5-205.4 FPGA Clocks...........................................................................................5-225.5 FPGA Downloading.................................................................................5-23
Section 6DMA.................................................................................................... 6-25
Section 7TSC695 Power & Clock ...................................................................... 7-27
7.1 TSC695 Power........................................................................................7-277.2 TSC695 Clocks .......................................................................................7-27
ide 1
4139G–AERO–11/05
Table of Contents
Evaulation Board TSC695 User Gu
Section 8Reset, HALT, EWDINT and Status LED’s .......................................... 8-29
8.1 RESET ....................................................................................................8-298.2 HALT.......................................................................................................8-308.3 EWDINT..................................................................................................8-318.4 Status LED’s ...........................................................................................8-31
Section 9Test Points.......................................................................................... 9-33
Section 10Logic Analizer POD’s........................................................................ 10-35
10.1 POD 1 ...................................................................................................10-3510.2 POD 2 ...................................................................................................10-36
Section 11Serial Links ....................................................................................... 11-39
11.1 Serial A .................................................................................................11-3911.2 Serial B .................................................................................................11-3911.3 SUN Connection ...................................................................................11-4011.4 PC Connection......................................................................................11-41
Section 12Tap Connector .................................................................................. 12-43
Section 13Expansion Connectors...................................................................... 13-45
13.1 3 x 32 points connector - P1 .................................................................13-4513.2 3 x 32 points connector - P2 .................................................................13-4613.3 3 x 32 points connector - P3 .................................................................13-47
Section 14Board Implementation....................................................................... 14-49
Section 15Deviations ......................................................................................... 15-51
15.1 CB[6:0] and DPAR on FPGA ................................................................15-5115.2 Reset and HALT Driven by JTAG Connector........................................15-5115.3 TSC695 Signals on FPGA ....................................................................15-51
Section 16Schematics ....................................................................................... 16-53
Section 17Document History ............................................................................. 17-73
ide 2
4139G–AERO–11/05
Section 1Introduction
1.1 Description The eVAB-695 is a board used to evaluate and demonstrate the TSC695 32-bit RISCembedded processor implementing the SPARC architecture V7 specification.
The TSC695 includes on chip an Integer Unit (IU), a Floating Point Unit (FPU), a Mem-ory Controller and a DMA Arbiter. For Real Time applications, the TSC695 offers a highsecurity Watch Dog, two Timer’s, an Interrupt Controller, Parallel and Serial interfaces.Fault tolerance is supported using specific parity on internal/external buses and anEDAC on the external data bus. The design is highly testable with the support of an On-Chip Debugger (OCD), an internal and boundary scan through JTAG interface.
This board is based on the TSC695, a ROM space, a SRAM space and DPRAM space.Several extension connectors and a large range of memory mapping produces an highflexibility to the evaluation or the demonstration. Free user interfaces are also proposedto customize the application.
1.2 Features The eVAB-695 board is designed in standard VME. It is a board in B / 2U format (23.3 x16 cm or 9.2 x 6.3 inches). The rear and front 96-pin connectors only respect the powerlines of the VME bus.
1.2.1 Processor The TSC695 includes all the major features (except co-processor implementation andmaster/checker mode) of the ERC32 chip-set. The component can be divided in sixblocks:• IU based on SPARC V7.0 architecture• FPU compliant to ANSI/IEEE 754 standard• specific memory controller• slave DMA arbiter• seven peripherals:
– 1 watchdog (or NMI)– 2 timers– 1 interrupt controller– 1 GPI– 2 UART’s
• JTAG controller with OCD
1.2.2 ROM The eVAB-695 can have either a 8-bit boot-Flash for 512 Kbytes of code either a 40-bitboot-Flash for 2 Mbytes of code.
Up to 4M bytes of code using one SIMM module can be mounted as ROM expansion.
The eVAB-695 is equipped with RDBmon a remote debugger.
Evaluation Board TSC695 User Guide 1-1
Rev. 4139G–AERO–11/05
Introduction
1.2.3 RAM The eVAB-695 have 2 banks of 40-bit SRAM for 2 Mbytes of data/code each.
Up to 8M bytes of data/code using 2 SIMM modules can be mounted as RAMexpansion.
1.2.4 FPGA The board is provided without FPGA. A capability is given to mount an ALTERA 10K50FPGA on board. Note: The FPGA interface has been used by Atmel for internal prototyping needs. It
has only been partially validated.
The FPGA area receives all signals of the TSC695 except for the address and databuses. The FPGA receives the address and data buffered buses. Some other FPGAI/O’s are connected to the expansion connectors.
The FPGA is downloaded via either a serial PROM (not provided), either via the Bit-Blaster connector.
1.2.5 Expansion Connectors
3 expansion connectors are provided. P1 and P2 are reserved for system expansion(processor emulation, DMA, exchange RAM, ...) and P3 is dedicated for I/O expansion.
1.2.6 Debugging • 1 connector TAP-JTAG for hardware debugging• 4 x 34-bit pods for logic analysis• 32 couples of signal/Gnd for test points• system halt input• NMI input (cf EWDINT)
1.2.7 Power The eVAB-695 can be powered (Vcc board) in 5 or 3.3 volts with a proper choice ofcomponents.
Each of the TSC695 Vcc core (VccI) and the TSC695 Vcc buffers (VccO) can be pow-ered separately from the Vcc board.
1-2 Evaluation Board TSC695 User Guide
4139G–AERO–11/05
Introduction
1.3 Board Block Diagram
Figure 1-1. Board Block Diagram
The processor TSC695 is placed in the centre of the board to be compatible with theSEU test equipment.
The serial A and B connectors, the RESET and HALT switches and the LED’s for boardstatus are placed on the left of P3 on the front side. P1 and P2 are placed on rear side.
ALE
SYSC
LK
DMA
DMA
InternalPeripherals
695E
FPU
IU
RA
[31:
0] Boot ROM 1
Boot ROM 2 SIMM
RAM
RAM Bank[1,0]
SIMM A
SIMM BBank[m,n]Bank[r, s]
RAM CtrlMEM & I/O Ctrl
FPGA Area
LSa LSb TAP I/O Connector P3
4 x 34-bitpods
CLK
BD
[39:
0]B
RA
[31:
0]
D[3
9:0]
&Reset
Expansion Connector P1 Expansion Connector P2MDMAREQ/MDMAGNT
Mem
ory
Inte
rfac
e
RA
SI...
FPGA
(*)
(*)
BitBlaster
SerialPROM
Evaluation Board TSC695 User Guide 1-3
4139G–AERO–11/05
Section 2Processor
2.1 Processor Package
The processor is the TSC695. The package used is the package provided to customers,the 256-pin MQFP-F package. This component is mounted on a special support, with achip-carrier. The component is placed bottom to top in its support. An hole is made onthe board, under the component, to access the die when the lid is removed (SEU tests).
Figure 2-1. TSC695 Top View
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64256255254253252251250249248247246245244243242241240239238237236235234233232231230229228227226225224223222221220219218217216215214213212211210209208207206205204203202201200199198197196195194193
6566676869707172737475767778798081828384858687888990919293949596979899
100101102103104105106107108109110111112113114115116117118119120121122123124125126127128
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
162
161
160
159
158
157
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
GP
INT
GP
I[7]
VC
CO
VSS
OG
PI[6
]G
PI[5
]G
PI[4
]G
PI[3
]V
CC
OV
SSO
GP
I[2]
GP
I[1]
GP
I[0]
D[3
1]D
[30]
VC
CO
VSS
OD
[29]
D[2
8]V
CC
IV
SSI
D[2
7]D
[26]
VC
CO
VSS
OD
[25]
D[2
4]D
[23]
D[2
2]V
CC
OV
SSO
D[2
1]D
[20]
D[1
9]D
[18]
VC
CO
VSS
OD
[17]
D[1
6]V
CC
IV
SSI
D[1
5]D
[14]
VC
CO
VSS
OD
[13]
D[1
2]D
[11]
D[1
0]V
CC
OV
SSO
D[9
]D
[8]
D[7
]D
[6]
VC
CO
VSS
OD
[5]
D[4
]D
[3]
D[2
]V
CC
OV
SSO
D[1
]RSIZE[1]RSIZE[0]RASI[3]VCCOVSSORASI[2]RASI[1]RASI[0]RA[31]RA[30]VCCOVSSORA[29]RA[28]RA[27]VCCOVSSORA[26]RA[25]RA[24]VCCIVSSIVCCOVSSORA[23]RA[22]RA[21]VCCOVSSORA[20]RA[19]RA[18]VCCOVSSORA[17]RA[16]RA[15]VCCOVSSORA[14]VCCIVSSIRA[13]RA[12]VCCOVSSORA[11]RA[10]RA[9]VCCOVSSORA[8]RA[7]RA[6]VCCOVSSORA[5]RA[4]RA[3]VCCOVSSORA[2]RA[1]
LOC
KR
LDS
TO RD
VSS
OV
CC
OW
EW
RT
IOSE
L[0]
IOSE
L[1]
IOSE
L[2]
VSS
OV
CC
OIO
SEL[
3]IO
WR
TxB
RxB
RxA TxA
CP
ARVS
SO
VC
CO
IUE
RR
EXTI
NTA
CK
VSS
IVC
CI
EXT
INT[
0]E
XTIN
T[1]
EXT
INT[
2]E
XTIN
T[3]
EXT
INT[
4]SY
SAV
SYSE
RR
VSS
OV
CC
OC
PUH
ALT
SYSH
ALT
NO
PAR
RO
MW
RT
BUSR
DY
BUSE
RR
DM
ARE
QV
SSI
VCC
IEX
MC
SD
MAG
NT
VSS
OV
CC
OD
MAA
SD
RD
YC
LK2
TCK
TDI
TMS
TRS
TTD
OSY
SCLK
VSS
OV
CC
OD
PAR
RAS
PAR
RAP
ARVS
SO
VC
CO
RA[
0]RTCINST
FLUSHVSSOVCCO
DIAINULL
DEBUGTMODE[0]TMODE[1]
EWDINTIWDE
WDCLKMDS
MHOLDDDIR
VSSOVCCODDIR
BUFFENMEMWR
VSSOVCCO
OEVSSIVCCI
MEMCS[0]MEMCS[1]MEMCS[2]
VSSOVCCO
MEMCS[3]MEMCS[4]MEMCS[5]MEMCS[6]MEMCS[7]MEMCS[8]
VSSOVCCO
MEMCS[9]ROMCSPROM8
VSSIVCCIALE
CB[0]VSSOVCCOCB[1]CB[2]CB[3]CB[4]VSSOVCCOCB[5]CB[6]BA[0]BA[1]
SYSRESETRESET
VSSOVCCOMEXC
DXFER
TSC695(top view)
Evaluation Board TSC695 User Guide 2-5
Rev. 4139G–AERO–11/05
Processor
2.2 Processor Pin-Out Table 2-1. TSC695 Pin-out
Pin Signal Pin Signal Pin Signal Pin Signal1 GPIINT 65 D[0] 129 RA[0] 193 DXFER2 GPI[7] 66 RSIZE[1] 130 VCCO 194 MEXC ]3 VCCO 67 RSIZE[0] 131 VSSO 195 VCCO4 VSSO 68 RASI[3] 132 RAPAR 196 VSSO5 GPI[6] 69 VCCO 133 RASPAR 197 RESET ]6 GPI[5] 70 VSSO 134 DPAR 198 SYSRESET ]7 GPI[4] 71 RASI[2] 135 VCCO 199 BA[1]8 GPI[3] 72 RASI[1] 136 VSSO 200 BA[0]9 VCCO 73 RASI[0] 137 SYSCLK 201 CB[6]
10 VSSO 74 RA[31] 138 TDO 202 CB[5]11 GPI[2] 75 RA[30] 139 TRST ] 203 VCCO12 GPI[1] 76 VCCO 140 TMS 204 VSSO13 GPI[0] 77 VSSO 141 TDI 205 CB[4]14 D[31] 78 RA[29] 142 TCK 206 CB[3]15 D[30] 79 RA[28] 143 CLK2 207 CB[2]16 VCCO 80 RA[27] 144 DRDY ] 208 CB[1]17 VSSO 81 VCCO 145 DMAAS 209 VCCO18 D[29] 82 VSSO 146 VCCO 210 VSSO19 D[28] 83 RA[26] 147 VSSO 211 CB[0]20 VCCI 84 RA[25] 148 DMAGNT ] 212 ALE ]21 VSSI 85 RA[24] 149 EXMCS ] 213 VCCI22 D[27] 86 VCCI 150 VCCI 214 VSSI23 D[26] 87 VSSI 151 VSSI 215 PROM8 ]24 VCCO 88 VCCO 152 DMAREQ ] 216 ROMCS ]25 VSSO 89 VSSO 153 BUSERR ] 217 MEMCS[9] ]26 D[25] 90 RA[23] 154 BUSRDY ] 218 VCCO27 D[24] 91 RA[22] 155 ROMWRT ] 219 VSSO28 D[23] 92 RA[21] 156 NOPAR ] 220 MEMCS[8] ]29 D[22] 93 VCCO 157 SYSHALT ] 221 MEMCS[7] ]30 VCCO 94 VSSO 158 CPUHALT ] 222 MEMCS[6] ]31 VSSO 95 RA[20] 159 VCCO 223 MEMCS[5] ]32 D[21] 96 RA[19] 160 VSSO 224 MEMCS[4] ]33 D[20] 97 RA[18] 161 SYSERR ] 225 MEMCS[3] ]34 D[19] 98 VCCO 162 SYSAV 226 VCCO35 D[18] 99 VSSO 163 EXTINT[4] 227 VSSO36 VCCO 100 RA[17] 164 EXTINT[3] 228 MEMCS[2] ]37 VSSO 101 RA[16] 165 EXTINT[2] 229 MEMCS[1] ]38 D[17] 102 RA[15] 166 EXTINT[1] 230 MEMCS[0] ]39 D[16] 103 VCCO 167 EXTINT[0] 231 VCCI40 VCCI 104 VSSO 168 VCCI 232 VSSI41 VSSI 105 RA[14] 169 VSSI 233 OE ]42 D[15] 106 VCCI 170 EXTINTACK 234 VCCO43 D[14] 107 VSSI 171 IUERR ] 235 VSSO44 VCCO 108 RA[13] 172 VCCO 236 MEMWR ]45 VSSO 109 RA[12] 173 VSSO 237 BUFFEN ]46 D[13] 110 VCCO 174 CPAR 238 DDIR47 D[12] 111 VSSO 175 TXA 239 VCCO48 D[11] 112 RA[11] 176 RXA 240 VSSO49 D[10] 113 RA[10] 177 RXB 241 DDIR ]50 VCCO 114 RA[9] 178 TXB 242 MHOLD ]51 VSSO 115 VCCO 179 IOWR ] 243 MDS ]52 D[9] 116 VSSO 180 IOSEL[3] ] 244 WDCLK53 D[8] 117 RA[8] 181 VCCO 245 IWDE54 D[7] 118 RA[7] 182 VSSO 246 EWDINT55 D[6] 119 RA[6] 183 IOSEL[2] ] 247 TMODE[1]56 VCCO 120 VCCO 184 IOSEL[1] ] 248 TMODE[0]57 VSSO 121 VSSO 185 IOSEL[0] ] 249 DEBUG58 D[5] 122 RA[5] 186 WRT 250 INULL59 D[4] 123 RA[4] 187 WE ] 251 DIA60 D[3] 124 RA[3] 188 VCCO 252 VCCO61 D[2] 125 VCCO 189 VSSO 253 VSSO
2-6 Evaluation Board TSC695 User Guide
4139G–AERO–11/05
Processor
2.3 Data Buffers Control
Figure 2-2. Data Buffers Control Schematic
Figure 2-3. Data Buffers Control Configuration
62 VCCO 126 VSSO 190 RD 254 FLUSH63 VSSO 127 RA[2] 191 RLDSTO 255 INST64 D[1] 128 RA[1] 192 LOCK 256 RTC
Table 2-1. TSC695 Pin-out (Continued)Pin Signal Pin Signal Pin Signal Pin Signal
J32
12
34
56
EXT_D_BUFFENP2 - C24
EXT_C_BUFFENP2 - C23
FPGA - C6
FPGA - C7
BUFFENP2 - B30
FPGA - AD4
BUFFENTSC695 - 237
xx245 xx245 xx245 xx245 xx245U26U22 U23 U24 U25
G3 G3 G3 G3 G3
BCB [6:0] | BDPAR
CB [6:0] | DPAR
BD [31:0]
D [31:0]
POD3 - pin26
J32
CB_BUFFENEXT_C_BUFFEN
BUFFEN
135
J32 / 3-1
J32 / 3-5
Controled by P2
Controled by mP
246
DATA_BUFFENEXT_D_BUFFEN
BUFFEN
J32 / 4-2
J32 / 4-6
J6
U1
U7
U8
U9
J28
J5 J4
J19
J20
or FPGA
J32J18
Data Check
Evaluation Board TSC695 User Guide 2-7
4139G–AERO–11/05
Processor
2.4 Processor Socket Part Number
The socket used for the TSC695 device is made by ENPLAS (www.enplas.com).The socket reference is: FPQ-256-0.508-01.The chip carrier reference is: CA-256-0.508-01.
2.5 Emulation Capability
Excepted for TMODE[1,0], DEBUG, ROMWRT ], NOPAR ] and JTAG port, all TSC695signals are available on P1 & P2 connectors. In this way, an emulation of the processor(support empty) can be done through P1 & P2 (ex: MCM or ERC32 chip-set).
2.6 Debug Jumper The debug jumper drives directly the TSC695 input pin "DEBUG" to Vcc or Gnd.
Figure 2-4. Processor - Debug Jumper
2.7 PROM8 Jumper The PROM8 jumper drives directly the TSC695 input pin "PROM8" to Vcc or Gnd.
Figure 2-5. Processor - PROM8 jumper
J6
U1
U7
U8
U9
J28
J5 J4
J19
J18
J19
DEBUGON
OFF
123 J19 / 2-3
J19 / 1-2
Debug Off
Debug On
J20
J8
PROM8
ON OFF
123
J8 / 1-2
J8 / 2-3
PROM40
PROM8
U12
J7
U1U28
J8
J29
J30
J14
U15U14U13
J20
J4
2-8 Evaluation Board TSC695 User Guide
4139G–AERO–11/05
Processor
2.8 Parity Jumper The PARity jumper drives directly the TSC695 input pin "NOPAR" to Vcc or Gnd.
Figure 2-6. Processor - Parity jumper
J9
PARityON
OFF
123 J9 / 2-3
J9 / 1-2
Parity Off
Parity OnU12
U1
U27
U28
J8
J9
J29
J30
J14
U15U14U13J4
Evaluation Board TSC695 User Guide 2-9
4139G–AERO–11/05
Section 3ROM (or Flash)
128K x 8 or 512K x 8 components can be used. PROM’s, EPROM’s or Flash devicesare available. The capacity must be correctly programmed in the Memory ConfigurationRegister (field psiz) of the TSC695. The capacity will be the total of the on board capac-ity included the expansion SIMM module.
The on-board ROM’s are placed in sockets.
3.1 Flash 8-bit It is possible to use the 8-bit mode. The device to be use is a 32-pin PLCC and islocated in U12.
Table 3-1. Flash 8-bit Configuration
3.2 Flash 40-bit It is possible to use the 40-bit mode. The devices to be used are 32-pin PLCC and arelocated in U14 for byte 3 D[24:31], in U15 for byte 2 D[16:23], in U16 for byte 2 D[8:15], in U17for D[0:7]byte 20, Parity on D7 of U13 (MSB), CB [0:6] of U13.
Table 3-2. Flash 40-bit Configuration
Capacity (8-bit Mode)128K x 8
Ex: using Flash 29F010 128K bytes of code
512K x 8Ex: using Flash 29F040 512K bytes of code
Capacity (40-bit Mode)128K x 8
Ex: using Flash 29F010 512K bytes of code
512K x 8Ex: using Flash 29F040 2M bytes of code
Evaluation Board TSC695 User Guide 3-11
Rev. 4139G–AERO–11/05
ROM (or Flash)
3.3 Flash 8-bit/ Flash 40-bit Selection
If no FPGA is implemented, the Flash 8-bit and the Flash 40-bit cannot be present at thesame time. Only the decoding made in FPGA can allow the presence of both the Flash8-bit and the Flash 40-bit.
3.3.1 Schematic
Figure 3-1. Flash 8-bit / Flash 40-bit Selection Schematic
3.3.2 FlashCS Jumper
Figure 3-2. FlashCS Jumper Configuration
ROMCS
PROM8
TSC695
J8
PROM8FPGA
BOOTROM1_40_CS
BOOTROM1_8_CSFlash_8_CS
Flash_40_CSJ16
FlashCS
12
34
56
Other conditions
216
215
C4
C5 H26
J2
123on
off
J16
Flash_40_CSBOOTROM1_40_CS
ROMCS
135
J16 / 3-5
J16 / 1-3
No FPGA
FPGA configured
U12
J3
U27
U28
J9
J30
J14 J16
U17
U16U15U14
J29
246
Flash_8_CSBOOTROM1_8_CS
ROMCS
J16 / 4-6
J16 / 2-4
J31
3-12 Evaluation Board TSC695 User Guide
4139G–AERO–11/05
ROM (or Flash)
3.3.3 Flash 8-bit Write In ROM8-bit mode, the input write signal of the Flash (U12) can be powered either byMEMWR either by WR.
Figure 3-3. Flash 8-bit Write Jumper Configuration
3.4 Flash - Expansion SIMM
Up to 4M bytes of code using a 72-pin SIMM proprietary module on connector can bemounted as Flash (ROM) expansion on the J3 connector.
3.4.1 Flash - Expansion SIMM selection
The operating mode is the mode selected in boot ROM space (ROM_8 or ROM_40).
If no FPGA is implemented, the Flash 8-bit and the Flash 40-bit cannot be present in the same time in the SIMM expansion. The on-SIMM Flash’s selection can be made by ROMCS signal using J31 connector.
If FPGA is implemented, the on-SIMM Flash can be selected either by the BOOTROM2_8_CS (FPGA pin J4) or BOOTROM2_40_CS (FPGA pin J3) signals coming from the FPGA. J31 connector is used for the selection. Only a decoding made in FPGA can allow the presence on SIMM of both a Flash 8-bit and a Flash 40-bit.
3.4.2 Schematic
Figure 3-4. Flash - Expansion SIMM Selection Schematic
J30 / 2-3
J30 / 1-2
WR_U12 = WR
WR_U12 = MEMWR
U12
J7
U1U28
J8
J29
J30
J14
U15U14U13
J20
J4
J30
WR_U12MEMWR
WR
123
ROMCS
PROM8
TSC695
J8
PROM8
FPGA
BOOTROM2_40_CS
BOOTROM2_8_CS
SIMM_8_CS
SIMM_40_CSJ31
On-SIMM
12
34
56
Other conditions
216
215
C4
C5 J3
J4
123on
off
FlashCS
Evaluation Board TSC695 User Guide
3-134139G–AERO–11/05
ROM (or Flash)
Figure 3-5. Flash - Expansion SIMM Selection
3.4.3 Flash - Expansion SIMM pin-out
This pin-out is compatible to the SIMM module of SRAM expansion.
Bottom view:
Top view:
3.5 Example of Flash - Expansion SIMM
This module can expand the Flash capacity from 512K to 1M bytes of code in 8-bitmode and 2M to 4M bytes of code in 40-bit mode.
Figure 3-6. Example of Flash - Expansion SIMM module
J31
SIMM_40_CSBOOTROM2_40_CS
ROMCS
135
J31 / 3-5J31 / 1-3
No FPGA
FPGA configured
U12
J3
U27
U28
J9
J30
J14 J16
U17
U16U15U14
J29
246
SIMM_8_CSBOOTROM2_8_CS
ROMCS
J31 / 4-6J31 / 2-4
J31
12
3
GN
D
5 7
BD08
9
BD09
11
BD10
13
BD11
154 6
BD00
8
BD01
10
BD02
12
BD03
14
+VC
C
16
BA00
18
BA01
20 22
BCB
04
24
BCB
05
26
BCB
06
28
BCB
07
30
ME
MW
R
32
BRA
19
34 36
BRA
02
17
BRA
03
19
BRA
04
21
BD12
23
BD13
25
BD14
27
BD15
29
GN
D
31 33 35 3738
BRA
10
39
OE
41
BD20
43
BD21
45BD
2247
BD23
49
BRA
07
5140
GN
D
42
BD16
44
BD17
46
BD18
48
BD19
50
BRA
13
52
BRA
14
54
BRA
15
56
BRA
16
58
BD24
60
BD25
62
BD26
64
BD27
66
GN
D
68
BRA
20
70 72
BRA
08
53
BRA
09
55
+VC
C
57 59
BD28
61
BD29
63
BD30
65
BD31
67
BRA
11
69 71
BRA
12
BRA
17
BRA
18
BRA
21
BCB
00
BCB
01
BCB
02
BCB
03
BD04
BD05
BD06
BD07
BRA
05
BRA
06
SIM
M_8
_CS
SIM
M_4
0_CS
1
2
3 5 7 9 11 13 15
4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
17 19 21 23 25 27 29 31 33 35 37
38
39 41 43 45 47 49 51
40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72
53 55 57 59 61 63 65 67 69 71
BRA[20:2]
BD[7:0] BD[15:8] BD[23:16] BD[31:24] BCB[7:0]
BA[1:0]BRA[18:2]
MEMWROE
0
123
AB
SIMM_8_CS
BRA[19]BRA[20]
GSIMM_40_CS
BRA[21]
FLA
SH(5
12K
x 8)
FLA
SH(5
12K
x 8)
FLA
SH(5
12K
x 8)
FLA
SH(5
12K
x 8)
FLA
SH(5
12K
x 8)
FLA
SH(5
12K
x 8)
139
1 / 2
0
123
AB
G
139
1 / 2
3-14 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 4RAM
The RAM space (in 40-bit mode) is built in banks of 2M bytes of code/data.The two first banks are implemented on board, the other ones (up to 4) can imple-mented on two 72-pin SIMM modules as RAM expansion.
The on-board RAM’s are soldered.
4.1 RAM - Bank 0 The first bank (Bank 0) is composed of five 512K x 8 SRAM’s selected by MEMCS[0] ofthe TSC695. The total capacity is 2M bytes of code/data.The devices used are located in U2 for check byte + parity, U3 for byte 3 (D[0..7]), U4 forbyte 2 (D[8..15], U5 for byte 1 (D[16..23]) and U6 for byte 0 (D[24..31]).
First word address: 0x02000000
Last word address: 0x021FFFFC
4.2 RAM - Bank 1 The second bank (Bank 1) is composed of five 512K x 8 SRAM’s selected by MEMCS[1]of the TSC695. The total capacity is 2M bytes of code/data.The devices used are located in U7 for check byte + parity, U8 for byte 3 (D[0..7]), U9 forbyte 2 (D[8..15], U10 for byte 1 (D[16..23]) and U11 for byte 0 (D[24..31]).
First word address: 0x02200000
Last word address: 0x023FFFFC
Evaluation Board TSC695 User Guide
4-15Rev. 4139G–AERO–11/05
RAM
4.3 RAM - Expansion SIMM A
Up to 2 banks of RAM using a 72-pin SIMM module on connector can be mounted asRAM expansion A on the J1 connector.This space is selected by the J1 jumper (from MEMCS[2] to MEMCS[9]).
4.3.1 RAM - Expansion SIMM A selection
Figure 4-1. RAM - Expansion SIMM A Selection
4.3.2 RAM - Expansion SIMM A pin-out
This pin-out is compatible with the SIMM module of Flash expansion.
Bottom view:
Top view:
4.4 RAM - Expansion SIMM B
Up to 2 banks of RAM using a 72-pin SIMM module on connector can be mounted asRAM expansion B on the J2 connector.This space is selected by jumpers on board (from MEMCS[2] to MEMCS[9]).
4.4.1 RAM - Expansion SIMM B selection
Figure 4-2. RAM - Expansion SIMM B selection
CS2A
CS1A
MEMCS[2]
MEMCS[6]J7J6
U7U14U13
J28
J5 J4J18
MEMCS[3]MEMCS[4]MEMCS[5]
MEMCS[7]MEMCS[8]MEMCS[9]
J20
GN
D
+VC
C
12
3
GN
D
5 7
D08
9
D09
11
D10
13
D11
154 6
D00
8
D01
10
D02
12
D03
14
+VC
C
16 18 20 22
CB
04
24
CB
05
26
CB
06
28
CB
07
30M
EM
WR
32
RA
19
34
CS
1A
36
RA
02
17
RA
03
19
RA
04
21
D12
23
D13
25
D14
27
D15
29
GN
D
31 33 35 3738
RA
1039
OE
41
D20
43
D21
45
D22
47
D23
49
RA
07
5140
GN
D
42
D16
44
D17
46
D18
48
D19
50
RA
13
52
RA
14
54
RA
15
56
RA
16
58
D24
60
D25
62
D26
64
D27
66
GN
D
68
RA
20
70 72
RA
08
53
RA
09
55
+VC
C
57 59D
2861
D29
63
D30
65
D31
67
RA
11
69 71
RA
12
RA
17
RA
18
RA
21
CB
00
CB
01
CB
02
CB
03
D04
D05
D06
D07
CS
2A
RA
05
RA
06
1
2
3 5 7 9 11 13 15
4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
17 19 21 23 25 27 29 31 33 35 37
38
39 41 43 45 47 49 51
40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72
53 55 57 59 61 63 65 67 69 71
CS2B
CS1B
MEMCS[2]
MEMCS[6]
MEMCS[3]MEMCS[4]MEMCS[5]
MEMCS[7]MEMCS[8]MEMCS[9]
J7J6
U7U14U13J5 J4
J18
J28 J20
4-16 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
RAM
4.4.2 RAM - Expansion SIMM B pin-out
This pin-out is compatible to the SIMM module of Flash expansion.
Bottom view:
Top view:
4.5 Example of RAM - Expansion SIMM
One module can expand the RAM capacity from 1 bank or 2 banks.
Figure 4-3. Example of RAM - Expansion SIMM module
GN
D
+VC
C
12
3
GN
D
5 7
D08
9
D09
11
D10
13
D11
154 6
D00
8
D01
10
D02
12
D03
14
+VC
C
16 18 20 22
CB
04
24
CB
05
26
CB
06
28
CB
07
30
ME
MW
R
32
RA
19
34
CS
1B
36R
A02
17R
A03
19R
A04
21
D12
23
D13
25
D14
27
D15
29
GN
D
31 33 35 3738
RA
10
39
OE
41
D20
43
D21
45
D22
47
D23
49
RA
07
5140
GN
D
42
D16
44
D17
46
D18
48
D19
50
RA
13
52
RA
14
54
RA
15
56
RA
16
58
D24
60
D25
62
D26
64
D27
66
GN
D
68
RA
20
70 72
RA
08
53
RA
09
55
+VC
C
57 59
D28
61
D29
63
D30
65
D31
67
RA
11
69 71
RA
12
RA
17
RA
18
RA
21
CB
00
CB
01
CB
02
CB
03
D04
D05
D06
D07
CS
2B
RA
05
RA
061
2
3 5 7 9 11 13 15
4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36
17 19 21 23 25 27 29 31 33 35 37
38
39 41 43 45 47 49 51
40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72
53 55 57 59 61 63 65 67 69 71
RA[20:2]
D[7:0] D[15:8] D[23:16] D[31:24] CB[7:0]
MEMWROE
CS1 SRA
M(5
12K
x 8)
SRA
M(5
12K
x 8)
SRA
M(5
12K
x 8)
SRA
M(5
12K
x 8)
SRA
M(5
12K
x 8)
CS2
Evaluation Board TSC695 User Guide
4-174139G–AERO–11/05
Section 5FPGA
For internal prototyping needs, Atmel has developed an FPGA area on the TSC695board. This interface has only been partially validated (not all of the signals have beenexecrised). The following section gives the key points for the integration of an additionalFPGA on the board.
Atmel does not intend to fully validate the FPGA interface. No support will be providedby Atmel in case of integration of such an FPGA on-board at the reserved location.
The FPGA can be useful to add some functions to the board. A dedicated area has beenreserved on-board to fit this expansion mode requirement.
5.1 FPGA Part Number
The eVAB-695 board is designed to ease integration of an ALTERA EPF-10K50 to theboard. The FPGA (BGA-356 package) should be placed in a socket.
Depending on the board powering , 3.3V or 5V FPGA shall be used.
5.0 Volts:ALTERA EPF-10K50BC356-3
3.3 volts:ALTERA EPF-10K50VBC356-3
5.2 FPGA Socket Part Number
The socket used for the FPGA device is made by E-Tec (www.e-tec.ch).The socket reference is: BPW356-1270-26AA01.
Evaluation Board TSC695 User Guide
5-19Rev. 4139G–AERO–11/05
FPGA
5.3 FPGA Pin-out
Figure 5-1. FPGA Pin-out
1234567891011121314151617181920212223242526
ABCDEFGHJKLMNPRTUVWYAAABACADAEAF
EPF-10K50BC356-3EPF-10K50VBC356-3
BGA-356
Bottom View
EPF-10K50BC356-3EPF-10K50VBC356-3
BGA-356
Top View
Indicates location of pin A1
5-20 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
FPGA
Table 5-1. FPGA Pin-out with Inter-connections Pin Signal Pin Signal Pin Signal Pin Signal Pin SignalA1 Vcc (power) D1 P3-A29 L1 P3-B10 U1 P3-C19 AD1 GPI[5]A2 Gnd (power) D2 nCONFIG L2 P3-B11 U2 P3-C20 AD2 Gnd (power)A3 BRA[0} D3 Gnd (MSEL1) L3 P3-B14 U3 P3-C21 AD3 Data0A4 BRA[1] D4 Gnd (MSEL0) L4 P3-B15 U4 P3-C22 AD4 BUFFEN ]A5 BRA[2] D5 Vcc (power) L5 P3-B16 U5 Vcc (power) AD5 (Data2 - "open")A6 BRA[3] D22 Vcc (TMS) L22 P3-B17 U22 (RDYnBSY - AD6 (Data4 - "open")A7 Vcc (power) D23 Gnd (TRST) L23 P3-B18 U23 P3-C23 AD7 GPI[6]A8 BRA[4] D24 nSTATUS L24 P3-B19 U24 P3-C24 AD8 (Data6 - "open")A9 BRA[5] D25 Vcc (power) L25 P3-B20 U25 P3-C25 AD9 GPI[7]
A10 Gnd (power) D26 P3-A30 L26 P3-B21 U26 Gnd (power) AD10 TXAA11 BRA[6] AD11 TXBA12 BRA[7] E1 P3-A31 M1 Gnd (power) V1 P3-C26 AD12 CB[0]A13 Vcc (input) E2 P3-A32 M2 P3-A17 V2 Vcc (power) AD13 Vcc (DEV_CLRn)A14 SYSCLK E3 BD[0] M3 P3-A18 V3 P3-C27 AD14 Gnd (power)A15 BRA[8] E4 BD[1] M4 P3-A19 V4 P3-C28 AD15 CB[1]A16 BRA[9] E5 BD[2] M5 P3-A20 V5 P3-C29 AD16 CB[2]A17 BRA[10] E22 BD[3] M22 P3-A21 V22 P3-C30 AD17 CB[3]A18 BRA[11] E23 BD[4] M23 Vcc (power) V23 P3-C31 AD18 Vcc (power)A19 BRA[12] E24 BD[5] M24 P3-A22 V24 P3-C32 AD19 CB[4]A20 Gnd (power) E25 BD[6] M25 P3-A23 V25 IOSEL[0] ] AD20 Gnd (power)A21 BRA[13] E26 BD[7] M26 Vcc (power) V26 IOSEL[1] ] AD21 CB[5]A22 BRA[14] AD22 CB[6]A23 Vcc (power) F1 Vcc (power) N1 Vcc (power) W1 Gnd (power) AD23 Gnd (CS)A24 BRA[15] F2 BD[8] N2 P3-A24 W2 IOSEL[2] ] AD24 Vcc (nCS)A25 BRA[16] F3 BD[9] N3 P3-A25 W3 IOSEL[3] ] AD25 Gnd (TCK)A26 Vcc (power) F4 Vcc (power) N4 P3-A26 W4 IOWR ] AD26 Vcc (power)
F5 BD[10] N5 P3-A27 W5 FLUSHB1 Gnd (power) F22 BD[11] N22 P3-A28 W22 Vcc (power) AE1 Gnd (power)B2 BRA[17] F23 BD[12] N23 P3-B23 W23 INST AE2 Gnd (power)B3 BRA[18] F24 BD[13] N24 P3-B24 W24 INULL AE3 DPARB4 Vcc (power) F25 BD[14] N25 P3-B25 W25 DIA AE4 CPARB5 BRA[19] F26 BD[15] N26 Gnd (power) W26 IUERR ] AE5 (Data5 - "open")B6 BRA[20] AE6 RAPARB7 BRA[21] G1 BD[16] Y1 SYSERR ] AE7 Gnd (power)B8 BRA[22] G2 BD[17] Y2 CPUHALT ] AE8 RASPARB9 BRA[23] G3 BD[18] Y3 SYSAV AE9 TCK(of 695E)
B10 BRA[24] G4 BD[19] Y4 RTC AE10 TMS(of 695E)B11 BRA[25] G5 BD[20] Y5 GPIINT AE11 TRST ](of 695E)B12 BRA[26] G22 BD[21] Y22 EXTINTACK AE12 TDI(of 695E)B13 Gnd (power) G23 BD[22] Y23 RESET ] AE13 Gnd (input)B14 Vcc (input) G24 BD[23] Y24 EWDINT AE14 Vcc (DEV_OE)B15 BRA[27] G25 BD[24] Y25 IWDE AE15 TDO(of 695E)B16 BRA[28] G26 BD[25] Y26 WDCLK AE16 RESET_HALT[0]B17 BRA[29] AE17 RESET_HALT[1]B18 BRA[30] H1 BD[26] P1 P3-B26 AA1 Vcc (power) AE18 MEMCS[0] ]B19 BRA[31] H2 BD[27] P2 Vcc (power) AA2 LOCK AE19 MEMCS[1] ]B20 RSIZE[0] H3 BD[28] P3 P3-B27 AA3 DXFER AE20 MEMCS[2] ]B21 RSIZE[1] H4 BD[29] P4 P3-B28 AA4 RD AE21 MEMCS[3] ]B22 Gnd (power) H5 BD[30] P5 P3-B29 AA5 RLDSTO AE22 MEMCS[4] ]B23 RASI[0] H22 Vcc (power) P22 P3-B30 AA22 WRT AE23 Vcc (nRS)B24 RASI[1] H23 Gnd (power) P23 P3-C1 AA23 WE ] AE24 Vcc (nWS)B25 Gnd (power) H24 Vcc (power) P24 P3-C2 AA24 Gnd (CLKUSR) AE25 Gnd (power)B26 Gnd (power) H25 BD[31] P25 P3-C3 AA25 RXA AE26 Gnd (power)
H26 BOOTROM1_40_CS ] P26 P3-C4 AA26 RXBC1 RASI[2] AF1 Vcc (power)C2 Gnd (power) J1 Vcc (power) R1 Gnd (power) AB1 Vcc (power) AF2 (Data3 - "open")C3 RASI[3] J2 BOOTROM1_8_ R2 P3-C5 AB2 SYSHALT ] AF3 Vcc (power)C4 ROMCS ] J3 BOOTROM2_40 R3 P3-C6 AB3 EXTINT[0] AF4 (Data7 - "open")C5 PROM8 ] J4 BOOTROM2_8_ R4 P3-C7 AB4 FPGA-RA26 AF5 MEMCS[5] ]C6 P2-C24 J5 DMAAS R5 P3-C8 AB5 EXTINT[1] AF6 MEMCS[6] ]C7 P2-C23 J22 DMAREQ ] R22 P3-C9 AB22 EXTINT[2] AF7 Vcc (power)C8 P2-C22 J23 BUSERR ] R23 P3-C10 AB23 EXTINT[3] AF8 MEMCS[7] ]
Evaluation Board TSC695 User Guide
5-214139G–AERO–11/05
FPGA
5.4 FPGA Clocks Two separate clocks must be provided to the FPGA.
5.4.1 FPGA Clocks Schematic
Figure 5-2. FPGA Clocks Schematic
5.4.2 FPGA Clocks Jumper
Figure 5-3. FPGA Clocks Selection
C9 Gnd (power) J24 BUSRDY ] R24 P3-C11 AB24 EXTINT[4] AF9 MEMCS[8] ]C10 P2-C21 J25 DMAGNT ] R25 P3-C12 AB25 GPI[0] AF10 MEMCS[9] ]C11 P2-C20 J26 Gnd (power) R26 Gnd (power) AB26 GPI[1] AF11 Gnd (power)C12 P2-C19 AF12 MEXC ]C13 Gnd (power) K1 Gnd (power) T1 Gnd (power) AC1 GPI[2] AF13 GCLK_1C14 Vcc (power) K2 DRDY ] T2 P3-C13 AC2 Gnd (nCE) AF14 Gnd (input)C15 Vcc (power) K3 P3-B3 T3 P3-C14 AC3 Vcc (TDI) AF15 MHOLD ]C16 P2-C18 K4 P3-B4 T4 P3-C15 AC4 GPI[3] AF16 Vcc (power)C17 P2-C17 K5 Vcc (power) T5 P3-C16 AC5 DCLK AF17 ALE ]C18 P2-C16 K22 P3-B5 T22 P3-C17 AC22 (nCEO - "open") AF18 DDIRC19 master_DMARE K23 P3-B6 T23 P3-C18 AC23 (TDO - "open") AF19 Gnd (power)C20 master_DMAGN K24 P3-B7 T24 INIT_DONE AC24 CONF_DONE AF20 OE ]C21 master_DMAAS K25 P3-B8 T25 Vcc (power) AC25 Vcc (power) AF21 EXMCS ]C22 master_DRDY ] K26 P3-B9 T26 Vcc (power) AC26 GPI[4] AF22 MEMWR ]C23 P3-A15 AF23 BA[0]C24 P3-A16 AF24 BA[1]C25 Gnd (power) AF25 Gnd (power)C26 Vcc (power) AF26 Vcc (power)
Table 5-1. FPGA Pin-out with Inter-connections (Continued)Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal
FPGAECLK
SMB connector
CLK2SYSCLKTSC695
TSC695 GCLK_0GCLK_1
GCLK1
123
pin AF13pin A14
J14 connector
J14
GCLK_1CLK2
ECLK
123 J14 / 2-3
J14 / 1-2
GCLK_1 / ECLK
GCLK_1 / CLK2U12
U1
U27
U28
J8
J9
J29J30
J14
U15U14U13J4
5-22 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
FPGA
5.4.3 FPGA External Clock
Figure 5-4. FPGA External Clock Location
5.5 FPGA Downloading
Two ways are available for downloading the FPGA.
5.5.1 Serial PROM No serial PROM is provided with the board. The serial PROM (EPC1) method is possi-ble if no bit-blaster is mounted. The serial PROM shall be mounted on an 8-pin socket(not provided with the board) and can be powered in 5 or 3 Volts.
Figure 5-5. FPGA Serial PROM location
5.5.2 Bit-Blaster The bit-blaster method is available if no serial PROM is mounted.
Figure 5-6. Bit-Blaster Connector
The bit-blaster must always be powered in 5 Volts (J12-4). A DC/DC converter(MAX682) is used. This converter provides 5 Volts, named Vbb, from a source 2.7 Volts
J26
J24J23
J11 J17
J13
J25 J15
J143
X1X2 ECLKJ15 connector
U12
J3
U27
J9
J30
J14 J16
U17
U16U15U14
J29
J31
U28
J26
J3J21
J24
J17
U1U27
J12J13
J25 J15
J27
X1
J29
135246
79810 J12 top view
Gnd n.c n.c Vcc Gnd
Data0
nSTATUS
nCONFIG
CONF_DONE
DCLK
Evaluation Board TSC695 User Guide
5-234139G–AERO–11/05
FPGA
up to 5.5 Volts. Vbb powers the pull-up resistors on INIT_DONE, nCONFIG,CONF_DONE and nSTATUS signals.
Figure 5-7. Bit-Blaster DC/DC Converter
IN
SKIP
SHDN
Gnd PGnd
OUT
Cxn CxpVcc (2.7 to 5.5V)
R = 390K
3
1
2
C = 1uF
C = 2.2uF
Vbb (5V)
C = 47uF
6 7
8
4 5
Gnd
J12-7
tantale
4.7K
4.7K
4.7K
4.7K
INIT_D
ONE
CONF_DONE
nCONFIG
nSTATUS
R11
R12
R13
R14
C144
C145
U33R33
C146
MAX682
5-24 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 6DMA
A special feature is proposed to build a DMA master with the FPGA. Then anothereVAB-695, seen as target, can be accessed in DMA slave. To be able to communicatebetween the two eVAB-695’s via P1 & P2, the address line RA26 of P1 is driven by theFPGA (pin AB4). Only with an inversion of this line during the DMA master session, theextended RAM space of the master (address 0x04000000 to 0x0FFFFFFF) can bemapped to the boot-PROM, extended PROM, exchange Memory areas of the slave. Inthe same way a part of the extended I/O space of the master (address 0x14000000 to0x17FFFFFF) can be mapped to the I/O areas 0 to 3 of the slave.
Figure 6-1. DMA - Address 26 Configuration
J6
U1
U7
U8
U9
J28
J5 J4
J18
J19
J18
P1-RA26FPGA-RA26
695E-RA26
123 J18 / 2-3
J18 / 1-2
DMA Off
DMA On
J20
Evaluation Board TSC695 User Guide
6-25Rev. 4139G–AERO–11/05
Section 7TSC695 Power & Clock
The board can be powered (Vcc board) by the connector P1, P2 or/and P3. It can alsobe powered by J20 and J28, allowing to separate the core Vcc and the I/O Vcc on theTSC695.
7.1 TSC695 Power
Figure 7-1. TSC695 Power Configuration
7.2 TSC695 Clocks CLK2 clock can be provided either by an oscillator (X1 - format 1 or 1/2 format) or byJ25 connector.
Vcc(board)
J28 J20c b a c b a
from P1P2P3
VccO(TSC695 I/O)
VccI(TSC695 core)
Gnd
J7J6
U7U14U13J5 J4
J18
J28 J20
J28 J20c b a c b a
(PCB) from P1P2P3(PCB)Default Connections
Evaluation Board TSC695 User Guide
7-27Rev. 4139G–AERO–11/05
TSC695 Power & Clock
Figure 7-2. TSC695 clocks
Figure 7-3. Clocks - X1, X2 and J25 Location
CLK2-J25
X1oscillator
CLK2TSC695-pin 143
CLK2P1-pin A10
GCLK_1FPGA-pin AF13
12
3
GCLK1-J14
ECLK-J15
74LV04-U34
X2oscillator
WDCLKTSC695-pin 244
WDCLKP2-pin A23
WDCLKFPGA-pin Y26
74LV04-U34
74LV04-U34
100 W-R36
100 W-R37
100 W-R38
Vcc
Vcc
1
1 5
51 2 3 4
5 6
9 8
11 1013 12
74LV04-U34
J26
J24J23
J11 J17
J13
J25 J15
X1X2
J26
J24J23
J11 J17
J13
J25 J15
X1X2
7-28 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 8Reset, HALT, EWDINT and Status
LED’s
Two dedicated push buttons and four status LED’s are available on front side.SMB connectors can be used to input HALT and EWDINT.RESET and HALT can be provided by the TAP connector.The other sources for RESET and HALT are managed into the FPGA.
8.1 RESET
8.1.1 Schematic
Figure 8-1. RESET Schematic
4.7K
W
BP RESET
"On-Mom"
Other RESET sources
FPGA
SYSRESET
4.7K
W
TSC695
4.7mF
4.7K
W
pin AE17
65
4
32
1
U30R17
R15
89
10
1112
13
U30
R16
S1
RE
SE
T_H
ALT
[1]
Evaluation Board TSC695 User Guide
8-29Rev. 4139G–AERO–11/05
Reset, HALT, EWDINT and Status LED’s
8.1.2 Push Button Location
Figure 8-2. Reset Push Button Location
8.2 HALT
8.2.1 Schematic Figure 8-3. HALT schematic
8.2.2 Push Button Location
Figure 8-4. HALT Push Button Location
J2
J1J23
J10 J11S2S1
D3D1
D2
U29
4.7K
W
BP HALT
"On-On"
Other HALT sources
FPGA
SYSHALT
4.7K
W
TSC695
4.7K
WSYSHALT
SMB connector
pin AE16
65
4
32
1
U31R20
R18
89
10
1112
13
U31
J27
S2
R19
RESE
T_HA
LT[0]
J2 J1J23
J10 J11S2S1
D3D1
D2
U29
8-30 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Reset, HALT, EWDINT and Status LED’s
8.2.3 SMB Connector Location
Figure 8-5. HALT - SMB Connector Location
8.3 EWDINT EWDINT can be used as NMI. A SMB connector is provided to input this external signal.
Figure 8-6. EWDINT - SMB Connector Location
8.4 Status LED’s
8.4.1 Schematic
Figure 8-7. LED’ Schematic
J26
J3J21
J24
J17
U1U27
J12
J13
J25 J15
J27
X1
J29
J26J3
J21J24
J17
U1U27
J12
J13
J25 J15
J27J29
X1
CPUHALT "HALT"4.7KW
red
"SYSTEM AVAILABLE"4.7KW
green
TSC695
"RUN"4.7KW
green
SYSAVTSC695
ALETSC695
D1
D2
D3
8-31 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Reset, HALT, EWDINT and Status LED’s
8.4.2 LED’s Location Figure 8-8. LED’s Location
J2 J1J23
J10 J11S2S1
D3D1
D2
U29
8-32 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 9Test Points
Table 9-1. Test Points Table
J29
Signal Pin nbr Signal
Gnd - 1 RTC
Gnd - 2 GPI [0]
Gnd - 3 GPI [1]
Gnd - 4 GPI [2]
Gnd - 5 GPI [3]
Gnd - 6 GPI [4]
Gnd - 7 GPI [5]
Gnd - 8 GPI [6]
Gnd - 9 GPI [7]
Gnd - 10 EWDINT
Gnd - 11 SYSCLK
Gnd - 12 RESET
Gnd - 13 SYSRESET ]
Gnd - 14 SYSERR ]
Gnd - 15 CPUHALT ]
Gnd - 16 ROMCS ]
Gnd - 17 MEMCS 0 ]
Gnd - 18 IOSEL 0 ]
Gnd - 19 OE ]
Gnd - 20 MEMWR ]
Gnd - 21 IOWR ]
Gnd - 22 WE ]
Gnd - 23 BUFFEN ]
Gnd - 24 DDIR
Gnd - 25 MHOLD ]
Gnd - 26 INST
Gnd - 27 RA [2]
Gnd - 28 D [0]
Evaluation Board TSC695 User Guide
9-33Rev. 4139G–AERO–11/05
Test Points
Figure 9-1. Test Points Location
Gnd - 29 TxA
Gnd - 30 TxB
Gnd - 31 RxA
Gnd - 32 RxB
J26
U12
J3
J21
J24
J17
U1
U27
U28
J12
J13
J27
J8
J9
J30
J14 J16
U17
U16U15U14U13
J29
pin 1
pin 32
J31
9-34 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 10Logic Analyzer POD’s
Four pod’s for logic analyzer and are available on board. They can provide inputs for adis-assembler.
10.1 POD 1Table 10-1. Pod 1 Table
Logic Analyzer
J21
Logic Analyses
E2 - Even(red)
A2/A3(brown)
Signal Pin nbr SignalA0/A1
(orange)E1 - Odd(brown)
- 1 39 38 -
- 2
Gnd
37 -
K clock CK0 DMAGNT ] 3 36 SYSCLK CK1 J clock
E2:15 A3:7 BRA [31] 4 35 BRA [15] A1:7 E1:15
E2:14 A3:6 BRA [30] 5 40 34 BRA [14] A1:6 E1:14
E2:13 A3:5 BRA [29] 6
Gnd
33 BRA [13] A1:5 E1:13
E2:12 A3:4 BRA [28] 7 32 BRA [12] A1:4 E1:12
E2:11 A3:3 BRA [27] 8 31 BRA [11] A1:3 E1:11
E2:10 A3:2 BRA [26] 9 41 30 BRA [10] A1:2 E1:10
E2:9 A3:1 BRA [25] 10
Gnd
29 BRA [9] A1:1 E1:9
E2:8 A3:0 BRA [24] 11 28 BRA [8] A1:0 E1:8
E2:7 A2:7 BRA [23] 12 42 27 BRA [7] A0:7 E1:7
E2:6 A2:6 BRA [22] 13
Gnd
26 BRA [6] A0:6 E1:6
E2:5 A2:5 BRA [21] 14 25 BRA [5] A0:5 E1:5
E2:4 A2:4 BRA [20] 15 24 BRA [4] A0:4 E1:4
E2:3 A2:3 BRA [19] 16 43 23 BRA [3] A0:3 E1:3
E2:2 A2:2 BRA [18] 17
Gnd
22 BRA [2] A0:2 E1:2
E2:1 A2:1 BRA [17] 18 21 BRA [1] A0:1 E1:1
E2:0 A2:0 BRA [16] 19 20 BRA [0] A0:0 E1:0
Evaluation Board TSC695 User Guide
10-35Rev. 4139G–AERO–11/05
Logic Analyzer POD’s
10.2 POD 2Table 10-2. Pod 2 Table
Logic Analyzer
J22
Logic Analyzer
E4 - Even(yellow)
D2/D3(blue)
Signal Pin nbr SignalD0/D1
(yellow)E3 - Odd(orange)
- 1 39 38 -
- 2
Gnd
37 -
M clock Q0 EXMCS ] 3 36 ALE ] CK2 L clock
E4:15 D3:7 D [31] 4 35 D [15] D1:7 E3:15
E4:14 D3:6 D [30] 5 40 34 D [14] D1:6 E3:14
E4:13 D3:5 D [29] 6
Gnd
33 D [13] D1:5 E3:13
E4:12 D3:4 D [28] 7 32 D [12] D1:4 E3:12
E4:11 D3:3 D [27] 8 31 D [11] D1:3 E3:11
E4:10 D3:2 D [26] 9 41 30 D [10] D1:2 E3:10
E4:9 D3:1 D [25] 10
Gnd
29 D [9] D1:1 E3:9
E4:8 D3:0 D [24] 11 28 D [8] D1:0 E3:8
E4:7 D2:7 D [23] 12 42 27 D [7] D0:7 E3:7
E4:6 D2:6 D [22] 13
Gnd
26 D [6] D0:6 E3:6
E4:5 D2:5 D [21] 14 25 D [5] D0:5 E3:5
E4:4 D2:4 D [20] 15 24 D [4] D0:4 E3:4
E4:3 D2:3 D [19] 16 43 23 D [3] D0:3 E3:3
E4:2 D2:2 D [18] 17
Gnd
22 D [2] D0:2 E3:2
E4:1 D2:1 D [17] 18 21 D [1] D0:1 E3:1
E4:0 D2:0 D [16] 19 20 D [0] D0:0 E3:0
10-36 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Logic Analyzer POD’s
10.3 POD 3Table 10-3. Pod 3 Table
Logic Analyzer
J23
Logic Analyzer
E6 - Even(blue)
C2/C3(white)
Signal Pin nbr SignalC0/C1(grey)
E5 - Odd(green)
- 1 39 38 -
- 2
Gnd
37 -
P clock CK3 RESET ] 3 36 IOSEL [0] ] Q1 N clock
E6:15 C3:7 LOCK 4 35 CPUHALT ] C1:7 E5:15
E6:14 C3:6 RLDSTO 5 40 34 SYSERR ] C1:6 E5:14
E6:13 C3:5 MEMCS [0] ] 6
Gnd
33 DDIR C1:5 E5:13
E6:12 C3:4 DXFER 7 32 RASI [3] C1:4 E5:12
E6:11 C3:3 RD 8 31 DMAREQ ] C1:3 E5:11
E6:10 C3:2 FLUSH 9 41 30 DMAAS C1:2 E5:10
E6:9 C3:1 INULL 10
Gnd
29 DRDY ] C1:1 E5:9
E6:8 C3:0 INST 11 28 RASI [2] C1:0 E5:8
E6:7 C2:7 ROMCS ] 12 42 27 OE ] C0:7 E5:7
E6:6 C2:6 DIA 13
Gnd
26 BUFFEN ] C0:6 E5:6
E6:5 C2:5 MEXC ] 14 25 RIZE [1] C0:5 E5:5
E6:4 C2:4 BA [1] 15 24 RASI [1] C0:4 E5:4
E6:3 C2:3 WE ] 16 43 23 MEMWR ] C0:3 E5:3
E6:2 C2:2 MDS ] 17
Gnd
22 IOWR ] C0:2 E5:2
E6:1 C2:1 MHOLD ] 18 21 RIZE [0] C0:1 E5:1
E6:0 C2:0 BA [0] 19 20 RASI [0] C0:0 E5:0
10-37 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Logic Analyzer POD’s
10.4 POD 4Table 10-4. Pod 4 Table
Logic Analyzer
J24
Logic Analyzer
E8 - Even(grey)
E2/E3(violet)
Signal Pin nbr SignalE0/E1(green)
E7 - Odd(violet)
- 1 39 38 -
- 2
Gnd
37 -
R clock Q3 EXTINTACK 3 36 BUSERR ] Q2 Q clock
E8:15 E3:7 EXTINT [4] 4 35 BUSRDY ] E1:7 E7:15
E8:14 E3:6 EXTINT [3] 5 40 34 RTC E1:6 E7:14
E8:13 E3:5 EXTINT [2] 6
Gnd
33 EWDINT E1:5 E7:13
E8:12 E3:4 EXTINT [1] 7 32 GPIINT E1:4 E7:12
E8:11 E3:3 EXTINT [0] 8 31 GPI [5] E1:3 E7:11
E8:10 E3:2 RAPAR 9 41 30 GPI [4] E1:2 E7:10
E8:9 E3:1 RASPAR 10
Gnd
29 GPI [3] E1:1 E7:9
E8:8 E3:0 CPAR 11 28 GPI [2] E1:0 E7:8
E8:7 E2:7 DPAR 12 42 27 GPI [1] E0:7 E7:7
E8:6 E2:6 CB [6] 13
Gnd
26 GPI [0] E0:6 E7:6
E8:5 E2:5 CB [5] 14 25 IOSEL [3] ] E0:5 E7:5
E8:4 E2:4 CB [4] 15 24 IOSEL [2] ] E0:4 E7:4
E8:3 E2:3 CB [3] 16 43 23 IOSEL [1] ] E0:3 E7:3
E8:2 E2:2 CB [2] 17
Gnd
22 MEMCS [3] ] E0:2 E7:2
E8:1 E2:1 CB [1] 18 21 MEMCS [2] ] E0:1 E7:1
E8:0 E2:0 CB [0] 19 20 MEMCS [1] ] E0:0 E7:0
10-38 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 11Serial Links
11.1 Serial A
Figure 11-1. Serial link A Configuration
11.2 Serial B
Figure 11-2. Serial Link B Configuration
1
J10 front view
J10 / 5
J10 / 3
Gnd
TxA TSC695
J2
J1J23
J10 J11S1
U29
D3D1
D2
S2
J10 / 2RxA TSC695569
23478
J23
J10
D3D1
D2
U29
J11J25
S2
1
J11 front view
J11 / 5
J11 / 3
Gnd
TxB TSC695
J11 / 2RxB TSC695569
23478
Evaluation Board TSC695 User Guide
11-39Rev. 4139G–AERO–11/05
Serial Links
11.3 SUN Connection
Figure 11-3. SUN Connection Lay-out
. . . . . .
. . . . . .. . . . . .
. . . . . .. . . . . . . . .. . . . . .. . .
. . . . . . . . .. . .
. . . . . . . . .. . .. . . . . .5 Gnd TSC695
eVAB-695E / DB 9 serial port
Pin Nb
(A or B)
Function
SUN / DB 25 serial port
Pin Nb
(both A and B)
Function
2TxA SUN 2 Rx. TSC695
3RxA SUN 3 Tx. TSC695
. . . . . .. . . . . . . . .. . . . . .. . .
. . . . . . . . .. . .
. . . . . . . . .. . .. . . . . .5 Gnd TSC695
eVAB-695E / DB 9 serial port
Pin Nb
(A or B)
Function
SUN / DB 25 serial port
Pin Nb
(A or B)
Function
2Tx. SUN 2 Rx. TSC695
3Rx. SUN 3 Tx. TSC695
7Gnd SUN
. . .. . .
. . . . . .. . . . . .
eVAB-695E / DB 9 serial port
Pin Nb
( B or A)
Function14TxB SUN
2 Rx. TSC695
16RxB SUN 3 Tx. TSC695
. . . . . .. . . . . .
. . . . . .. . . . . .
. . . . . .. . . . . .7Gnd SUN
. . .. . . . . .. . .
. . .. . .5 Gnd TSC695
11-40 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Serial Links
11.4 PC Connection
Figure 11-4. PC Connection Lay-out
. . . . . .. . . . . . . . .. . . . . .. . .
. . . . . . . . .. . .
. . .. . .. . . . . .5 Gnd TSC695
eVAB-695E / DB 9 serial port
Pin Nb
(A or B)
Function
PC / DB 9 serial port
Pin Nb
(COM1 or COM2)
Function
2Rx. PC 2 Rx. TSC695
3Tx. PC 3 Tx. TSC695
5Gnd PC
11-41 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 12Tap Connector
The J13 connector is the TAP connector used for JTAG. It is a male M50 type connector14 leads.
Figure 12-1. Tap Connector Lay-out
TCK can be received a pull-up and/or a pull-down resistor. The default configuration hasno resistor.
TMS, TDI, TRST pads of the TSC695 has an internal pull-up resistor.
J26
J3J21
J24
J17
U1U27
J13J12
J25 J15
J27
X1
J29
101112543
131421 J13 top view
n.c n.c
CPUHALT
RESETGnd
n.cSYCLK
TMSTCK
TRST
8976
TDO(TDI695E
)
TDI(TDO69
5E)
SYSHALT
SYSRESET
TCKJ13-11
R34
R35
Vcc
TCKTSC695-pin 142
J17
R7
C129
U33 C145
C146C144
R35 R34
Bottom View
Evaluation Board TSC695 User Guide
12-43Rev. 4139G–AERO–11/05
Section 13Expansion Connectors
13.1 3 x 32 points connector - P1 Table 13-1. P1 Connector Pin Definition
P1Pin nbr Signal row A Signal row B Signal row C Pin nbr
32 Vcc Vcc Vcc 3231 - - - - - - - - - 3130 D [13] RAPAR RA [25] 3029 D [12] RA [31] RA [24] 2928 D [11] RA [30] RA [23] 2827 D [10] RA [29] RA [22] 2726 D [09] RA [28] RA [21] 2625 D [08] RA [27] RA [20] 2524 D [07] RA [26] RA [19] 2423 D [06] Gnd RA [18] 2322 D [05] *8RSIZE [1] RA [17] 2221 D [04] RSIZE [0] RA [16] 2120 D [03] Gnd RA [15] 2019 Gnd RASPAR RA [14] 1918 SYSCLK D [31] RA [13] 1817 Gnd D [30] RA [12] 1716 ALE D [29] RA [11] 1615 Gnd D [28] RA [10] 1514 D [02] D [27] RA [09] 1413 D [01] D [26] RA [08] 1312 D [00] D [25] RA [07] 1211 Gnd D [24] RA [06] 1110 CLK2 D [23] RA [05] 109 Gnd D [22] Gnd 98 DPAR D [21] RA [04] 87 CB [06] D [20] RA [03] 76 CB [05] D [19] RA [02] 65 CB [04 D [18] RA [01] 54 CB [03] D [17] RA [00] 43 CB [02] D [16] BA [01] 32 CB [01] D [15] BA [00] 21 CB [00] D [14] CPAR 1
Evaluation Board TSC695 User Guide
13-45Rev. 4139G–AERO–11/05
Expansion Connectors
13.2 3 x 32 points connector - P2 Table 13-2. P2 Connector Pin Definition
P2
Pin nbr Signal row A Signal row B Signal row C Pin nbr
32 EXTINTACK Vcc slave_DMAREQ ] or DMAREQ ] 32
31 EXTINT[4] Gnd slave_DMAGNT ] or DMAGNT ] 31
30 EXTINT[3] BUFFEN ] slave_DMAAS or DMAAS 30
29 EXTINT[2] DDIR slave_DRDY ] or DRDY ] 29
28 EXTINT[1] DDIR* master_DMAREQ ] or FPGA [pin C19] 28
27 EXTINT[0] WE master_DMAGNT ] or FPGA [pin C20] 27
26 MEXC ] RD master_DMAAS or FPGA [pin C21] 26
25 EWDINT EXMCS ] master_DRDY ] or FPGA [pin C22] 25
24 IWDE MEMCS [9] ] EXT_D_BUFFEN ] or FPGA [pin C6] 24
23 WDCLK MEMCS [8] ] EXT_C_BUFFEN ] or FPGA [pin C7] 23
22 RTC Gnd FPGA [pin C8] 22
21 Tx A MEMCS [7] ] FPGA [pin C10] 21
20 Rx A MEMCS [6] ] FPGA [pin C11] 20
19 Tx B MEMCS [5] ] FPGA [pin C12] 19
18 Rx B MEMCS [4] ] FPGA [pin C16] 18
17 MHOLD ] MEMCS [3] ] FPGA [pin C17] 17
16 MDS ] MEMCS [2] ] FPGA [pin C18] 16
15 INULL MEMCS [1] ] RESET ] 15
14 DIA MEMCS [0] ] SYSRESET ] 14
13 FLUSH Vcc CPUHALT ] 13
12 INST Gnd SYSHALT ] 12
11 DXFER ROMCS ] BUSRDY ] 11
10 WRT IOSEL [3] ] SYSAV 10
9 GPI [7] IOSEL [2] ] BUSERR ] 9
8 GPI [6] IOSEL [1] ] SYSERR ] 8
7 GPI [5] IOSEL [0] ] IUERR ] 7
6 GPI [4] IOWR ] LOCK 6
5 GPI [3] MEMWR ] RLDSTO 5
4 GPI [2] OE ] RASI [3] 4
3 GPI [1] - - - RASI [2] 3
2 GPI [0] Gnd RASI [1] 2
1 GPIINT Vcc RASI [0] 1
13-46 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Expansion Connectors
13.3 3 x 32 points connector - P3 Table 13-3. P3 Connector Pin Definition
P3
Pin nbr Signal row A Signal row B Signal row C Pin nbr
32 FPGA [pin E2] Vcc FPGA [pin V24] 32
31 FPGA [pin E1] Gnd FPGA [pin V23] 31
30 FPGA [pin D26] FPGA [pin P22] FPGA [pin V22] 30
29 FPGA [pin D1] FPGA [pin P5] FPGA [pin V5] 29
28 FPGA [pin N22] FPGA [pin P4] FPGA [pin V4] 28
27 FPGA [pin N5] FPGA [pin P3] FPGA [pin V3] 27
26 FPGA [pin N4] FPGA [pin P1] FPGA [pin V1] 26
25 FPGA [pin N3] FPGA [pin N25] FPGA [pin U25] 25
24 FPGA [pin N2] FPGA [pin N24] FPGA [pin U24] 24
23 FPGA [pin M25] FPGA [pin N23] FPGA [pin U23] 23
22 FPGA [pin M24] Gnd FPGA [pin U4] 22
21 FPGA [pin M22] FPGA [pin L26] FPGA [pin U3] 21
20 FPGA [pin M5] FPGA [pin L25] FPGA [pin U2] 20
19 FPGA [pin M4] FPGA [pin L24] FPGA [pin U1] 19
18 FPGA [pin M3] FPGA [pin L23] FPGA [pin T23 18
17 FPGA [pin M2] FPGA [pin L22] FPGA [pin T22] 17
16 FPGA [pin C24] FPGA [pin L5] FPGA [pin T5] 16
15 FPGA [pin C23] FPGA [pin L4] FPGA [pin T4] 15
14 IWDE FPGA [pin L3] FPGA [pin T3] 14
13 EWDINT Vcc FPGA [pin T2] 13
12 SYSCLK Gnd FPGA [pin R25] 12
11 RESET ] FPGA [pin L2] FPGA [pin R24] 11
10 GPIINT FPGA [pin L1] FPGA [pin R23] 10
9 RTC FPGA [pin K26] FPGA [pin R22] 9
8 GPI [7] FPGA [pin K25] FPGA [pin R5] 8
7 GPI [6] FPGA [pin K24] FPGA [pin R4] 7
6 GPI [5] FPGA [pin K23] FPGA [pin R3] 6
5 GPI [4] FPGA [pin K22] FPGA [pin R2] 5
4 GPI [3] FPGA [pin K4] FPGA [pin P26] 4
3 GPI [2] FPGA [pin K3] FPGA [pin P25] 3
2 GPI [1] Gnd FPGA [pin P24] 2
1 GPI [0] Vcc FPGA [pin P23] 1
13-47 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Expansion Connectors
– slave_DMAREQ* is DMAREQ* from TSC695– slave_DMAGNT* is DMAGNT* from TSC695– slave_DMAAS is DMAAS from TSC695– slave_DRDY* is DRDY* from TSC695
13-48 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 14Board Implementation
Figure 14-1. Board Implementation - Lay-out
PROM 40
EWDINT
PROM8
Sim
m S
RA
M B
Sim
m S
RA
M A
Sim
m P
RO
M
POD 1
POD 2
POD 4POD 3
LS A LS B P3
P2P1
TSC 695FPGA
EPC
1
BitBlasterTAP
Hal
t
Res
et
Power
HLT
RU
NS
AV
CLK
2
EC
LK
10K50
Syshalt
OscillatorsMAX
SRAM
Ban
k 0
pin 1
pin A1
PROM8/40
Par/N
oPar
Test
Poi
nts
WR
RO
MG
CLK
1 FlashCS
Deb
ugR
A26
CS
RA
M
CS
RA
MSI
MM
B
SIM
M A
SRAM
Ban
k 1
WDCLK CLK2
SIMMCS
BU
FFEN
Evaluation Board TSC695 User Guide
14-49Rev. 4139G–AERO–11/05
Board Implementation
Figure 14-2. Board Implementation - References
J26
U12
J2 J1 J3
J21
J22
J24J23
J10 J11 J17
J7J6
U1U27
U28
J12J13
S2S1
D3D1
D2
J25 J15
J27
X1U29
J8
J9
J29
J30
J14 J16
U2
U3
U4
U5
U6
U7
U8
U9
U10
U11
U17
U16U15U14U13
J28
J5 J4
J19
J18
J20
X2
eVAB-695E-Rev.D
J31
J32
14-50 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Section 15Deviations
15.1 CB[6:0] and DPAR on FPGA
The signals CB[7:0] and DPAR connected on FPGA are those of the TSC695 and notthose buffered for the other space than SRAM. Note that data connected to FPGA are,effectively, those coming from data buffers.
==> Disable the enable buffer for CB[7:0] and DPAR (U26 - xx245) usingEXT_C_BUFFEN on FPGA (pin C7) and drive directly CB[7:0] and DPAR.
15.2 Reset and HALT Driven by JTAG Connector
The "Reset in" and "HALT in" (from JTAG con to FPGA or CPU) are not possible.
==> If these functions are needed, use the 2x n.c pins of the JTAG connector and con-nect them to FPGA, pins AD5 and AD6 ("open").
15.3 TSC695 Signals on FPGA
Note that the following signals are missing:
TMODE[1,0] (not useful)
DDIR* (but DDIR exits)
ROMWRT* (on board pulldown)
DEBUG
MDS*
NOPAR*Note: This shall be taken into account in the FPGA implementation.
Evaluation Board TSC695 User Guide
15-51Rev. 4139G–AERO–11/05
Section 16Schematics
The following section illustrates the schematic diagrams for the TSC695 EvaluationBoard.
Evaluation Board TSC695 User Guide
16-53Rev. 4139G–AERO–11/05
Schematics
16-54 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Schematics
16-55 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Schematics
16-56 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Schematics
16-57 Evaluation Board
4139G–AERO–11/05
TSC695 User Guide
Schematics
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4139G–AERO–11/05
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Schematics
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Schematics
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Schematics
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Section 17Revision History
17.1 Changes from Revision B 08/99 to Revision C 01/00
1. Changed logic analizer pod’s signals.2. Added WDCLK on board.3. New Flash SIMM selection.4. Placed DC/DC convertor for FPGA.5. Buffering of clock signals.
17.2 Changes from Revision C 01/00 to Revision D 04/00
1. Updating P3 Connector.2. Schematic for R34/R35 (TAP).
17.3 Changes from Revision D 04/00 to Revision E 03/01
1. Permutation of J20 and J28 names.2. Permutation VccO and VccI.3. Addition of board schematics.
17.4 Changes from Revision E 03/01 to Revision F 08/03
1. Changing TSC695E to TSC695.2. Changing eVAB-695E to eVAB-695.3. Addition of BUFFEN* controls for on-board data buffers.
17.5 Changes from Revision F 08/03 to Revision G 11/05
1. Changing +5V to +VCC (board documentation is applicable for 3V and 5V boards)
2. Precision on memory mount process (socket versus soldering)3. Precision given on FPGA area
Evaluation Board TSC695 User Guide
17-73Rev. 4139G–AERO–11/05
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