FLEX 10KE PCI Development Board Data Sheet

®
August 1999, ver. 1
Features
Data Sheet
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General
Description
Altera Corporation
A-DS-PCI-C-01
FLEX 10KE
PCI Development Board
Universal 64-bit, 66-MHz peripheral component interconnect (PCI)
expansion card
Includes the FLEX® 10KE EPF10K100EFC-1 device
On-board 144-pin small outline DIMM 32-Mbyte SDRAM module
On-board standard PCI Mezzanine card (PMC) connector
I/O prototype area
RS-232 port
On-board voltage regulator automatically generates 2.5 V and 3.3 V
from a 5.0-V power supply
Flexible clocking options for the local-side logic, including PCI clock,
on-board crystal oscillator, or external clock input
Supports in-circuit reconfigurability (ICR) with an EPC2
configuration device and a MasterBlasterTM, ByteBlasterMVTM,
ByteBlasterTM, or BitBlasterTM download cable. (The ByteBlaster cable
is obsolete and is replaced by the ByteBlasterMV cable.)
Designed to accept the following devices:
– EPF10K30EFC484
– EPF10K50EFC484
– EPF10K50SFC484
– EPF10K100EFC484
– EPF10K130EFC484
– EPF10K130EFC672
– EPF10K200EFC672
– EPF10K200SFC672
The PCI development board works with all Altera® PCI MegaCoreTM
functions, including pci_a, pci_b, pci_c, and pcit1 (a back-end
reference design for each megafunction is required). Users can implement
custom local-side functions to interface the Altera PCI MegaCore function
with the on-board SDRAM socket, the on-board PMC connector, the RS232 port, or any custom logic implemented in the prototype area or PMC.
The PCI development board provides a flexible clock network
distribution and in-circuit configuration options. It supports a wide range
of FLEX 10KE devices so users can tailor the development board to meet
I/O pin and area requirements. This data sheet provides information on
FLEX 10KE pin assignments, programming and configuration settings,
clock network selection, supported components, board options, and
schematics for the Altera FLEX 10KE PCI development board.
1
FLEX 10KE PCI Development Board Data Sheet
Functional
Description
Figure 1 shows the FLEX 10KE PCI development board.
Figure 1. FLEX 10KE PCI Development Board
Local-Side Clock Input
+ C4
+ C2
L2
+ C3
U2
D2
U1
L1
D1
+ C1
+ C5
General Purpose
LEDs
JN2
LED1
JN1
C8 +
JP1
I/O 1-64
External Power
Input
+
PMC Connector
JP2
JN3
U4
PS Header
JN4
S2
JP3
C9
+
S1
SDRAM SOCKET
C10
Clock
+
RS-232
Header
C14
+
C11
JTAG Header
JP4
Oscillator
Dedicated
Input 1-3
+5.0 V
+3.3 V
+2.5 V
GND
Proto 1-20
Program Switch
+
U6
®
U3
®
U7
+
U8
+
U9
EPF10K100EFC484-1
U5
C12
®
+
+
C6
C13
EPC2
JP5
U10
P1
®
C15
C7
PCI Interface
FLEX 10KE Pin Assignments
Pin assignments to FLEX 10KE devices ensure that its I/O pins are
properly connected to the defined signals on the board. Table 1 shows the
definitions for the pin assignments.
2
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Table 1. Pin Assignment Reference Definitions
Pin Name
e_<pci_signal>
Board Components
Definition
JN1, JN2, JN3
Standard PMC
connectors.
p4_io<n>
JN4
Additional PMC I/O pins.
p5_io<n>
I/O 1-64
User prototype area I/O
pins.
p_<pci_signal>
P1
64-bit universal board PCI
connector.
a_<name>
U5
Altera FLEX 10KE I/O.
s_<name>
S1
SDRAM module.
proto<n>
Proto 1-20
Prototype outputs from
the FLEX 10KE device.
rs232_<name>
U10
RS-232 interface signals.
led<n>
LED1
Input signals to generalpurpose LEDs.
sw<n>
S2
Switch connected to the
FLEX 10KE I/O.
Before compiling the FLEX 10KE design for the PCI development board,
pin assignments must be made to all defined pins. See Table 2.
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 1 of 7)
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
e_ack64n
C18
E20
e_ad4
D3
F5
e_ad0
D1
F3
e_ad40
L17
N19
e_ad1
E2
G4
e_ad41
K21
M23
e_ad10
B9
D11
e_ad42
K22
M24
e_ad11
C10
E12
e_ad43
L18
N20
e_ad12
A11
C13
e_ad44
L22
N24
e_ad13
A12
C14
e_ad45
L20
N22
e_ad14
B12
D14
e_ad46
L21
N23
e_ad15
C12
E14
e_ad47
L19
N21
e_ad16
C13
E15
e_ad48
M22
P24
e_ad17
A14
C16
e_ad49
M21
P23
e_ad18
C14
E16
e_ad5
D2
F4
e_ad19
E20
G22
e_ad50
L16
N18
e_ad2
C1
E3
e_ad51
M19
P21
e_ad20
D21
F23
e_ad52
N22
R24
Altera Corporation
3
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 2 of 7)
Signal Name
e_ad21
484-Pin
FineLine BGA
D22
672-Pin
FineLine BGA
F24
Signal Name
e_ad53
484-Pin
FineLine BGA
M18
672-Pin
FineLine BGA
P20
e_ad22
F20
H22
e_ad54
N21
R23
e_ad23
H16
K18
e_ad55
M17
P19
e_ad24
E22
G24
e_ad56
P21
T23
e_ad25
F21
H23
e_ad57
R21
U23
e_ad26
G20
J22
e_ad58
U22
W24
e_ad27
J16
L18
e_ad59
U21
W23
e_ad28
G22
J24
e_ad6
C6
E8
e_ad29
J18
L20
e_ad60
Y20
AB22
e_ad3
E3
G5
e_ad61
AB21
AD23
e_ad30
J17
L19
e_ad62
AB22
AD24
e_ad31
J19
L21
e_ad63
Y19
AB21
e_ad32
H22
K24
e_ad7
A7
C9
e_ad33
K15
M17
e_ad8
C9
E11
e_ad34
K16
M18
e_ad9
A9
C11
e_ad35
J21
L23
e_bm1
W2
AA4
e_ad36
K17
M19
e_bm2
V2
Y4
e_ad37
J22
L24
e_bm3
U2
W4
e_ad38
K18
M20
e_bm4
U3
W5
e_ad39
K19
M21
e_cben0
B19
D21
e_cben1
F17
H19
p4_io17
H26
e_cben2
A21
C23
p4_io18
J25
e_cben3
E17
G19
p4_io19
J26
e_cben4
B20
D22
p4_io2
B15
e_cben5
D18
F20
p4_io20
K25
e_cben6
C19
E21
p4_io21
K26
e_cben7
D19
F21
p4_io22
L25
e_devseln
B18
D20
p4_io23
L26
e_framen
D17
F19
p4_io24
M26
e_gntn
E15
G17
p4_io25
N25
e_idsel
AA21
AC23
p4_io26
N26
e_intan
W1
AA3
p4_io27
P25
e_intbn
T2
V4
p4_io28
P26
e_intcn
R2
U4
p4_io29
R26
e_intdn
P3
T5
p4_io3
B17
e_irdyn
C16
E18
p4_io30
R25
4
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 3 of 7)
Signal Name
e_lockn
484-Pin
FineLine BGA
V20
672-Pin
FineLine BGA
Y22
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
p4_io31
P20
T22
P22
T24
e_par
D20
F22
p4_io32
e_par64
C20
E22
p4_io33
T26
e_perrn
G18
J20
p4_io34
U25
e_req64n
A20
C22
p4_io35
e_reqn
A15
C17
p4_io36
T20
T21
e_rstn
U20
W22
p4_io37
e_sbo
N2
R4
p4_io38
U26
V22
V23
V26
e_sdone
M3
P5
p4_io39
e_serrn
C22
E24
p4_io4
B18
e_stopn
A19
C21
p4_io40
W25
e_trdyn
A18
C20
p4_io41
W26
B14
p4_io42
Y25
p4_io1
T22
V24
p4_io10
D26
p4_io43
AA25
p4_io11
E25
p4_io44
Y26
p4_io12
E26
p4_io45
AB26
p4_io13
F25
p4_io46
p4_io14
G25
p4_io47
W22
AA24
AC25
AB25
p4_io15
F26
p4_io48
p4_io16
G26
p4_io49
AC26
E19
p5_io24
J2
p4_io5
C17
p4_io50
AD25
p5_io25
J1
p4_io51
AE24
p5_io26
K2
p4_io52
AF22
p5_io27
K1
p4_io53
AD26
p5_io28
L2
AE26
p5_io29
p4_io55
AB20
AD22
p5_io3
p4_io56
AB19
AD21
p5_io30
J1
p4_io57
AB18
AD20
p5_io31
J2
AF19
p5_io32
p4_io54
p4_io58
p4_io59
AB17
p4_io6
p4_io60
Y16
p4_io61
p4_io62
AA15
p4_io63
Altera Corporation
J3
L5
A8
L3
L4
L1
AD19
p5_io33
M1
B26
p5_io34
N2
AB18
p5_io35
N1
AE18
p5_io36
AC17
p5_io37
P2
AF17
p5_io38
P1
L1
N3
5
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 4 of 7)
Signal Name
p4_io64
484-Pin
FineLine BGA
AB15
672-Pin
FineLine BGA
AD17
Signal Name
p5_io39
484-Pin
FineLine BGA
M2
672-Pin
FineLine BGA
P4
p4_io7
C26
p5_io4
A7
p4_io8
D25
p5_io40
R1
C25
p5_io41
R2
p5_io1
B10
D12
p5_io42
U1
p5_io10
B3
D5
p5_io43
U2
A3
p5_io44
V1
A4
C6
p5_io45
V2
p4_io9
p5_io11
p5_io12
p5_io13
C2
p5_io46
p5_io14
B1
p5_io47
p5_io15
D2
p5_io48
p5_io16
D1
p5_io49
p5_io17
E1
p5_io5
W1
U1
W3
W2
Y1
A5
C7
p5_io18
E2
p5_io50
AA2
p5_io19
F2
p5_io51
AA1
p5_io2
A9
p5_io52
AB2
p5_io20
F1
p5_io53
p5_io21
G2
p5_io54
p5_io22
p5_io23
F2
AB1
R3
U5
G1
p5_io55
AC1
H4
p5_io56
AC2
p5_io57
AD2
p_ad24
T4
V6
p5_io58
AD1
p_ad25
T6
V8
p5_io59
AB5
AD7
p_ad26
R6
U8
p5_io6
A3
C5
p_ad27
R5
U7
p5_io60
AB3
AD5
p_ad28
R7
U9
p5_io61
Y9
AB11
p_ad29
R4
U6
p5_io62
AA9
AC11
p_ad3
AA7
AC9
AF11
p_ad30
P4
T6
p5_io63
p5_io64
AB9
AD11
p_ad31
P6
T8
p5_io7
A2
C4
p_ad32
W16
AA18
p5_io8
B4
D6
p_ad33
AA18
AC20
B3
p_ad34
U16
W18
F14
p_ad35
AA17
AC19
p5_io9
a_clk2
D12
a_clkout
D15
F17
p_ad36
T16
V18
led1
E16
G18
p_ad37
W15
AA17
led2
D16
F18
p_ad38
AA16
AC18
6
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 5 of 7)
Signal Name
led3
484-Pin
FineLine BGA
A17
672-Pin
FineLine BGA
Signal Name
C19
p_ad39
484-Pin
FineLine BGA
672-Pin
FineLine BGA
U15
W17
led4
A16
C18
p_ad4
W8
AA10
p_ack64n
Y10
AB12
p_ad40
V15
Y17
p_ad0
U9
W11
p_ad41
Y15
AB17
p_ad1
AA8
AC10
p_ad42
V14
Y16
p_ad10
V7
Y9
p_ad43
W14
AA16
p_ad11
Y7
AB9
p_ad44
U14
W16
p_ad12
AB6
AD8
p_ad45
T14
V16
p_ad13
U7
W9
p_ad46
R13
U15
p_ad14
U6
W8
p_ad47
Y14
AB16
p_ad15
AA5
AC7
p_ad48
T13
V15
p_ad16
V6
Y8
p_ad49
AA14
AC16
p_ad17
Y5
AB7
p_ad5
V8
Y10
p_ad18
W6
AA8
p_ad50
U13
W15
p_ad19
W5
AA7
p_ad51
AB14
AD16
p_ad2
T9
V11
p_ad52
W13
AA15
p_ad20
W4
AA6
p_ad53
V13
Y15
p_ad21
W3
AA5
p_ad54
T12
V14
p_ad22
U5
W7
p_ad55
U12
W14
p_ad23
T5
V7
p_ad56
V12
Y14
p_ad57
W12
AA14
p_stopn
U10
W12
p_ad58
U11
W13
p_stopn_in
H11
K13
p_ad59
Y11
AB13
p_trdyn
T10
V12
p_ad6
U8
W10
p_trdyn_in
R12
U14
p_ad60
T11
V13
Proto1
H13
K15
p_ad61
AB10
AD12
Proto10
R17
U19
p_ad62
R11
U13
Proto11
R19
U21
p_ad63
AA10
AC12
Proto12
R20
U22
p_ad7
Y6
AB8
Proto13
N19
R21
p_ad8
T8
V10
Proto14
G2
J4
AB6
p_ad9
W7
AA9
Proto15
Y4
p_cben0
Y17
AB19
Proto16
AB2
AD4
p_cben1
V16
Y18
Proto17
AA4
AC6
p_cben2
R16
U18
Proto18
AA3
AC5
p_cben3
AA19
AC21
Proto19
AA2
AC4
p_cben4
W17
AA19
Proto2
G13
J15
Altera Corporation
7
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 6 of 7)
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
p_cben5
W18
AA20
Proto20
AB1
AD3
p_cben6
V17
Y19
Proto3
P16
T18
p_cben7
V18
Y20
Proto4
N15
R17
a_clk1
P11
T13
Proto5
P17
T19
p_devseln
V10
Y12
Proto6
N16
R18
p_framen
W9
AA11
Proto7
V1
Y3
p_gntn
W10
AA12
Proto8
T18
V20
p_idsel
N8
R10
Proto9
V21
Y23
p_intan
T17
V19
rs232_cd
L15
N17
p_irdyn
R10
U12
rs232_cts
N17
R19
p_irdyn_in
V11
Y13
rs232_DTR
P18
T20
p_lockn
R18
U20
rs232_ri
N18
R20
p_M66EN
N5
R7
rs232_RTS
M16
P18
p_par
Y18
AB20
rs232_rx
M15
P17
p_par64
AA20
AC22
rs232_tx
P19
T21
p_perrn
U19
W21
s_A0
G6
J8
p_req64n
V9
Y11
s_A1
F4
H6
p_reqn
T19
V21
s_A10
C7
E9
p_rstn
E12
G14
s_A11
D5
F7
p_serrn
U17
W19
s_A12
F6
H8
s_A13
E7
G9
s_dq29
D9
F11
s_A2
G4
J6
s_dq3
K6
M8
s_A3
G5
J7
s_dq30
H10
K12
s_A4
C3
E5
s_dq31
E9
G11
s_A5
H7
K9
s_dq32
F10
H12
s_A6
B6
D8
s_dq33
D10
F12
s_A7
F3
H5
s_dq34
E10
G12
s_A8
F8
H10
s_dq35
A10
C12
s_A9
E6
G8
s_dq36
F11
H13
s_ba0
P5
T7
s_dq37
G10
J12
s_ba1
P1
T3
s_dq38
E11
G13
s_casn
M5
P7
s_dq39
D11
F13
s_cke0
N7
R9
s_dq4
K7
M9
s_cke1
M4
P6
s_dq40
B11
D13
s_dq0
K4
M6
s_dq41
G11
J13
s_dq1
K1
M3
s_dq42
F12
H14
8
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Table 2. FLEX 10KE PCI Development Board Pin Assignments (Part 7 of 7)
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
Signal Name
484-Pin
FineLine BGA
672-Pin
FineLine BGA
s_dq10
J6
L8
s_dq43
G12
J14
s_dq11
H3
K5
s_dq44
H12
K14
s_dq12
H5
K7
s_dq45
B13
D15
s_dq13
J7
L9
s_dq46
D13
F15
s_dq14
H6
K8
s_dq47
F13
H15
s_dq15
F7
H9
s_dq48
E13
G15
s_dq16
C5
E7
s_dq49
D14
F16
s_dq17
D6
F8
s_dq5
K8
M10
s_dq18
C4
E6
s_dq50
B14
D16
s_dq19
B7
D9
s_dq51
E14
G16
s_dq2
K5
M7
s_dq52
B15
D17
s_dq20
D7
F9
s_dq53
F14
H16
s_dq21
D8
F10
s_dq54
G19
J21
H18
s_dq22
G7
J9
s_dq55
F16
s_dq23
C8
E10
s_dq56
F22
H24
s_dq24
E8
G10
s_dq57
G17
J19
s_dq25
B8
D10
s_dq58
F15
H17
s_dq26
G9
J11
s_dq59
H19
K21
s_dq27
F9
H11
s_dq6
H1
K3
s_dq28
G8
J10
s_dq60
G16
J18
s_dq61
H18
K20
s_dqmb5
L3
N5
s_dq62
H21
K23
s_dqmb6
L7
N9
s_dq63
H17
K19
s_dqmb7
L8
N10
s_dq7
J5
L7
s_rasn
M6
P8
s_dq8
J4
L6
s_s0n
P7
T9
s_dq9
H4
K6
s_s1n
N6
R8
s_dqmb0
M1
P3
s_scl
P2
T4
s_dqmb1
M7
P9
s_sda
N4
R6
s_dqmb2
M8
P10
s_wen
L5
N7
s_dqmb3
L4
N6
sw9
G14
J16
s_dqmb4
L6
N8
–
–
–
Altera Corporation
9
FLEX 10KE PCI Development Board Data Sheet
Dedicated Input Selection
The FLEX 10KE PCI development board provides a dedicated input
selection circuitry, and performs the following functions:
Sets split-pin configuration for high fan-out PCI signals
(trdyn, irdyn, and stopn).
Drives available dedicated inputs with external signals.
Provides pull-up resistors to dedicated inputs.
■
■
■
Dedicated input configuration can be selected by installing or removing
various 0 Ω resistors. Figure 2 shows a schematic of the board’s dedicated
input selectors.
Figure 2. Dedicated Input Selectors
+3.3V
R28 1K
PU1
R29 1K
R26 1K
PU3
R42
0
R46
0
R50
0
R44
0
R48
0
R52
0
R43
0
R47
0
R51
0
proto21
p_irdyn_in
p_irdyn
proto22
p_stopn_in
p_stopn
proto23
p_trdyn_in
p_trdyn
1
10
The PCI development board is shipped with R42, R43, and R44
installed. This configuration provides a pull-up resistor for each
of the three available dedicated inputs.
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Programming & Configuration Settings/Defaults
The PCI development board supports on-board configuration device
programming and in-circuit configuration for FLEX devices (via JP3) for
Joint Test Action Group (JTAG) or passive serial (PS) mode (via JP4) with
the MasterBlaster or ByteBlasterMV download cable. Table 3 shows the
programming and configuration options available and their settings.
Table 3. Programming & Configuration Options
Mode/
Device(s)
MasterBlaster/
ByteBlaster/
DIP Switch
Settings (1)
Description
JTAG EPC2
Connected to
JTAG header
0000000001
Programs the EPC2 device in JTAG mode using the
MAX+PLUS® II software. This setting is the default
for the board.
JTAG EPC2,
FLEX
Connected to
JTAG header
0000000110
Places the EPC2 device and FLEX device in the
JTAG chain (where the EPC2 device is device 0 and
the FLEX device is device 1) and configures FLEX
devices using the MAX+PLUS II software.
JTAG EPC2,
FLEX, PMC
Connected to
JTAG header
0001111010
Places the EPC2 device, FLEX device, and the
PMC connector in the JTAG chain (where the EPC2
device is device 0, the FLEX device is
device 1, and the PMC is device 2) and configures
the device connected to the PMC connector using
the MAX+PLUS II software.
PS
Connected to
BitBlaster header
0000000000
Configures the FLEX device in PS mode using the
MAX+PLUS II software.
1000000000
Configures the FLEX device with the programmed
EPC2 device.
Configuration with Removed
EPC2
Note:
(1)
The DIP switch setting is indicated with a 10-bit binary number where bit 0 refers to switch 1, and bit 9 refers to
switch 10 on S2. A value of 1 indicates that the corresponding switch is in the on position, and a value of 0 indicates
that the corresponding switch is in the off position. Switch 9 is not a part of the programming and configuration
circuit. It is connected to an input of the FLEX 10KE device.
Clock Network Selection/Default
The clock signal on the PCI development board can arrive from various
clocking sources including system clock, external clock, and on-board
crystal oscillator. The zero-delay buffers provide zero-delay clock signal
distribution throughout the board to minimize clock skew within the
same clock network. Clocking options on the board can be selected by
installing or removing various 0 Ω resistors. Figure 3 shows a schematic
of the board’s clock distribution circuit.
Altera Corporation
11
FLEX 10KE PCI Development Board Data Sheet
Figure 3. Clock Distribution Circuit
Oscillator
R35
A_CLK2
CLKOUT
EXT_CLK
R39
SEL_CLK
R32
R36
A_CLKOUT
S_CK0
S_CK1
E_CLK
PROTO_CLK
CLK1
CLK2
CLK3
CLK4
PLL2
A_CLK1
R41
CLKOUT
R49
R45
PCI_CLK
PCI_REF
CLK1
CLK2
CLK3
CLK4
PLL1
C55
10PF
C56
10PF
C53
10PF
The SDRAM, PMC, prototype area, and FLEX 10KE local-side clock
inputs can be connected from the system clock (PCI_CLK), external clock
input, on-board crystal oscillator, or FLEX clock output by installing the
appropriate resistors. The FLEX 10KE clock input (A_CLK1) can be driven
directly from the system clock or the output of PLL1. For example, to select
the system clock to drive the FLEX 10KE clock input directly, R49 is
installed; to select the external clock as the clocking source for the SDRAM
socket, PMC connector, and prototype area, R39 is installed.
1
The PCI development board is shipped with R41, R45, and R36
installed. These resistors select the system clock (PCI_CLK) as the
clocking source for the FLEX 10KE device, the SDRAM socket,
the prototype area, and the PMC connector.
Voltage Supply Circuit
The FLEX 10KE PCI development board has special voltage regulator
circuitry, which allows the necessary 2.5-V and 3.3-V power supply to be
generated from a 5.0-V input. The board can accept the 5.0-V input from
either the PCI connector or an external power supply (via JP2).
1
12
Using the external power supply input while the board is
plugged into the PCI connector slot may result in severe board
damage and possibly system damage.
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Supported
Components
Table 4 lists all components supported by the PCI development board;
however, not all components are shipped with the board. See “Board
Options” on page 15 for more information.
Table 4. Supported Components (Part 1 of 2)
Component
CAPACITOR, 0.01UF,
0805
Manufacturer Part Number
Quantity
Schematic Reference
AVX:08055E104ZAT
46
C16, C18, C20, C21, C23, C24, C27,
C28, C30, C31, C32, C33, C34,C35,
C36, C37, C38, C39, C40, C41, C42,
C43, C44, C45, C46, C47, C48, C49,
C50, C51, C52, C54, C57, C58, C59,
C60, C61, C62, C63, C64, C65, C66,
C67, C68, C69, C70
CAPACITOR, 10PF, 0805 AVX:08055A100KAT
3
C53, C55, C56
CAPACITOR, 330PF,
0805
AVX:08055A331KAT
2
C19, C25
CAPACITOR, 0.01UF,
0805
AVX:08055E103ZAT
2
C26, C29
CAPACITOR, 1.0UF,
1206
AVX:12063G105ZAT
2
C17, C22
CAPACITOR, 10UF, TAN, AVX:TAJB107M016
B-SIZE
7
C9, C10, C11, C12, C13, C14, C15
CAPACITOR, 47UF, TAN, AVX:TAJC477M010
D-SIZE
8
C1, C2, C3, C4, C5, C6, C7, C8
RESISTOR, 0 Ω, 0805
AVX:CR21-000
22
RESISTOR, 150 Ω, 0805
AVX:CR21-151J
1
R40
RESISTOR, 510 Ω, 0805
AVX:CR21-511J
2
R3, R4
RESISTOR, 1 KΩ, 0805
AVX:CR21-102J
22
R8, R9, R10, R11, R16, R18, R32, R35,
R36, R39, R41, R42, R43, R44, R45,
R46, R47, R48, R49, R50, R51, R52
R12, R13, R14, R15, R17, R19, R20,
R21, R22, R23, R24, R25, R26, R27,
R28, R29, R30, R31, R33, R34, R37,
R38
RESISTOR, 13.0 KΩ, 1%, AVX:CR21-1302F
0805
2
R1, R6
RESISTOR, 22.1 KΩ, 1%, AVX:CR21-2212F
0805
2
R2, R5
RESISTOR, 37.5 KΩ, 1%, AVX:CR21-3572F
0805
1
R7
DIODE, SCHOTTKY,
30 V, 1.0 A, SMT
2
D1, D2
Altera Corporation
MOTOROLA:MBRS130LT3
13
FLEX 10KE PCI Development Board Data Sheet
Table 4. Supported Components (Part 2 of 2)
Component
LED, 4-DIODE_PACK,
SMT
Manufacturer Part Number
DIALIGHT:555-4003
Quantity
1
Schematic Reference
LED1
INDUCTOR, 50 UH, 1.0 A COILTRONICS:CTX50-2P
2
L1, L2
IC, PWM-VOLTAGEREGULATOR, S08
MAXIM:MAX750ACSA
2
U1, U2
IC, RS232-INTERFACE,
S024W
MAXIM:MAX208CWG
1
U10
IC, HEX-INVERTER,
HCT, S014
TI:SN74HCT04D
1
U4
IC, QUAD3-STATE_BUF, TI:SN74HCT125D
HCT, S014
1
U6
IC, FLEX 10KE,
484/672-PIN_BGA
ALTERA
1
U5
IC, SERIAL_EPROM,
PLCC20
ALTERA
1
U9
IC, ZERODELAY_BUFFER, S08
CYPRESS:CY2305-1H
2
U7, U8
SOCKET, 8-PIN_DIP
SAMTEC:ICO-308-SST
1
U3
SOCKET, 20-PIN, PLCC
SAMTEC:PLCC-020-F-N
1
Z2
CONNECTOR, DB-9,
MALE
AMP:747250-4
1
JP5
CONNECTOR, 4-PIN,
LOCK, RA
AMP:176153-4
1
JP2
SOCKET, 144-PIN,
SO-DIMM, RA
AMP:390114-1
1
S1
CONNECTOR, PMC,
RECEPTACLE
AMP:120521-1
4
Jn1, Jn2, Jn3, Jn4
CONNECTOR, SMB
AMP:414026-3
1
JP1
HEADER, 5 × 2-PIN,
SHROUDED
SAMTEC:TST-105-07-S-D
2
JP3, JP4
SWITCH, DECADE, SMT
CTS:218-10LPST
1
S2
14
Altera Corporation
FLEX 10KE PCI Development Board Data Sheet
Board Options
Tables 5 through 7 show clock, SDRAM, and FLEX 10KE device options
for the PCI development board.
Table 5. On-Board Oscillator Options
Options
Part Number
Description
User-defined clock device
Other frequency
Suggested clock device
EPSON SG-531PH-66.000MC
Suggested 66-MHz clock device
Table 6. SDRAM Options
Part Number
Configuration
Maximum Access
Time (ns)
Maximum Operating
Current (mA)
MT4LSDT464HG-662
4 Mbytes × 64
9
420
MT4LSDT464HG-662
8 Mbytes × 64
9
840
Table 7. FLEX 10KE Device Options
Part Number
Number of Pins
Package Type
EFP10K30EFC484-1
484
FineLine BGATM
EFP10K50EFC484-1
484
FineLine BGA
EFP10K50SFC484-1
484
FineLine BGA
EFP10K100EFC484-1
484
FineLine BGA
EFP10K130EFC484-1
484
FineLine BGA
EFP10K130EFC672-1
672
FineLine BGA
EFP10K200EFC672-1
672
FineLine BGA
EFP10K200SFC672-1
672
FineLine BGA
References
Refer to the following Altera documents for more information:
■
■
■
■
■
■
Altera Corporation
PCI Master/Target MegaCore Function with DMA Data Sheet
Application Note 116 (Configuring APEX 20K, FLEX 10K & FLEX 6000
Devices)
FLEX 10KE Embedded Programmable Logic Family Data Sheet
MasterBlaster Serial/USB Communications Cable Data Sheet
ByteBlasterMV Parallel Port Download Cable Data Sheet
BitBlaster Serial Download Cable Data Sheet
15
FLEX 10KE PCI Development Board Data Sheet
Other references include:
PCI-SIG. PCI Local Bus Specification, Revision 2.2, Portland,
Oregon: PCI Special Interest Group, December 1998.
Micron Technology, inc. Small-Outline SDRAM Module
MT4LSDT464H, MT4LSDT864H Data Sheet.
http://www.micron.com.
■
■
Schematics
The following schematic foldouts are shown on sheets 1 through 9.
1
P5_IO[64:1] signals on the schematics correspond to the I/O
1-64 on the board. PROTO[23:21] signals on the schematics
correspond to the dedicated input 1-3 on the board.
®
101 Innovation Drive
San Jose, CA 95134
(408) 544-7000
http://www.altera.com
Applications Hotline:
(800) 800-EPLD
Customer Marketing:
(408) 544-7104
Literature Services:
(888) 3-ALTERA
[email protected]
16
Altera, EPF10K30E, EPF10K50E, EPF10K50S, EPF10K100E, EPF10K130E, EPF10K200E, EPF10K200S,
FineLine BGA, FLEX, FLEX 10KE, BitBlaster, ByteBlaster, ByteBlasterMV, EPC2, MasterBlaster, MAX+PLUS,
MAX+PLUS II, and MegaCore are trademarks and/or service marks of Altera Corporation in the United States
and other countries. Altera acknowledges the trademarks of other organizations for their respective products
or services mentioned in this document. Altera products are protected under numerous U.S. and foreign
patents and pending applications, maskwork rights, and copyrights. Altera warrants performance of its
semiconductor products to current specifications in accordance with Altera’s standard warranty, but reserves
the right to make changes to any products and services at any time without notice. Altera
assumes no responsibility or liability arising out of the application or use of any information,
product, or service described herein except as expressly agreed to in writing by Altera
Corporation. Altera customers are advised to obtain the latest version of device specifications
before relying on any published information and before placing orders for products or
services.
Copyright  1999 Altera Corporation. All rights reserved.
Altera Corporation
Printed on Recycled Paper.
1
2
3
4
SPARES
A
A
8. Power Supplies
7. Clock Sources and Buffers
6. Configuration Logic
5. Expansion Connector
4. 144-Pin SO-DIMM Socket for SDRAM
3. FLEX 10K PCI Controller
2. PCI Connector
1. Cover Sheet
SHEET INDEX
B
B
C
C
A00
REV
DESCRIPTION
INITIAL RELEASE
D
PCB
PMC
D
1
1
1
1
Z1
Z2
MH2
SOCKET-PLCC20
BRACKET
PCI_MH
PMC1
1
1
PCI_MH
BR1
MH1
MECHANICAL
Z5U DIELECTRIC, 20%, 50V
2. ALL .1uF CAPS ARE: CHIP CAPS - 0805 PACKAGE
.10 WATT, 5%, 200PPM/C
1. ALL RESISTORS ARE: CHIP RESISTORS - 0805 PACKAGE
UNLESS OTHERWISE SPECIFIED:
ZONE
Date:
Size
C
Title
DRAFTR
E
DATE
12/21/98
CHECKR
APPVL
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
PCI Demonstration Board
E
Sheet
1
of
9
Rev
A
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
ECN
1
2
3
4
1
2
3
4
P_ACK64#
P_M66EN
P_SERR#
P_LOCK#
P_PERR#
P_IRDY#
P_DEVSEL#
P_REQ#
P_TRDY#
P_INTA#
A
ACK64#
M66EN
B
CLK
C
PCI CONNECTOR
GND
C/BE7#
C/BE5#
VIO
PAR64
AD62
GND
AD60
AD58
GND
AD56
AD54
VIO
AD52
AD50
GND
AD48
AD46
GND
AD44
AD42
VIO
AD40
AD38
GND
AD36
AD34
GND
AD32
RESERVED
GND
RESERVED
C/BE0#
+3.3V
AD6
AD4
GND
AD2
AD0
VIO
REQ64#
+5V
+5V
RESERVED
RST#
VIO
GNT#
GND
RESERVED
AD30
+3.3V
AD28
AD26
GND
AD24
IDSEL
+3.3V
AD22
AD20
GND
AD18
AD16
+3.3V
FRAME#
GND
TRDY#
GND
STOP#
+3.3V
SDONE
SBO#
GND
PAR
AD15
+3.3V
AD13
AD11
GND
AD9
TRST#
+12V
TMS
TDI
+5V
INTA#
INTC#
+5V
RESERVED
VIO
RESERVED
A63
A64
A65
A66
A67
A68
A69
A70
A71
A72
A73
A74
A75
A76
A77
A78
A79
A80
A81
A82
A83
A84
A85
A86
A87
A88
A89
A90
A91
A92
A93
A94
A52
A53
A54
A55
A56
A57
A58
A59
A60
A61
A62
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32
A33
A34
A35
A36
A37
A38
A39
A40
A41
A42
A43
A44
A45
A46
A47
A48
A49
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
+12V +5.0V
AD32
AD36
AD34
AD40
AD38
AD44
AD42
AD48
AD46
AD52
AD50
AD56
AD54
AD60
AD58
PAR64
AD62
C/BE/7
C/BE/5
REQ64#
AD2
AD0
AD6
AD4
C/BE/0
AD9
AD13
AD11
PAR
AD15
STOP#
TRDY#
FRAME#
AD18
AD16
AD22
AD20
AD24
IDSEL
AD28
AD26
AD30
GNT#
RST#
INTA#
CLK
C/BE/[7..0]
PCI_UNIV
RESERVED
GND
C/BE6#
C/BE4#
GND
AD63
AD61
VIO
AD59
AD57
GND
AD55
AD53
GND
AD51
AD49
VIO
AD47
AD45
GND
AD43
AD41
GND
AD39
AD37
VIO
AD35
AD33
GND
RESERVED
RESERVED
GND
AD8
AD7
+3.3V
AD5
AD3
GND
AD1
VIO
ACK64#
+5V
+5V
RESERVED
GND
CLK
GND
REQ#
VIO
AD31
AD29
GND
AD27
AD25
+3.3V
C/BE3#
AD23
GND
AD21
AD19
+3.3V
AD17
C/BE2#
GND
IRDY#
+3.3V
DEVSEL#
GND
LOCK#
PERR#
+3.3V
SERR#
+3.3V
C/BE1#
AD14
GND
AD12
AD10
M66EN
-12V
TCK
GND
TDO
+5V
+5V
INTB#
INTD#
PRSNT1#
RESERVED
PRSNT2#
P1
AD[63..0]
B63
B64
B65
B66
B67
B68
B69
B70
B71
B72
B73
B74
B75
B76
B77
B78
B79
B80
B81
B82
B83
B84
B85
B86
B87
B88
B89
B90
B91
B92
B93
B94
B52
B53
B54
B55
B56
B57
B58
B59
B60
B61
B62
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34
B35
B36
B37
B38
B39
B40
B41
B42
B43
B44
B45
B46
B47
B48
B49
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
TRDY#
INTA#
C/BE/[7..0]
+5.0V -12V
JTAG_DATA
C
AD[63..0]
AD35
AD33
AD39
AD37
AD43
AD41
AD47
AD45
AD51
AD49
AD55
AD53
AD59
AD57
AD63
AD61
C/BE/6
C/BE/4
ACK64#
AD1
AD5
AD3
AD8
AD7
AD12
AD10
M66EN
C/BE/1
AD14
SERR#
LOCK#
PERR#
LOCK#
PERR#
SERR#
DEVSEL#
IRDY#
AD17
C/BE/2
AD21
AD19
C/BE/3
AD23
AD27
AD25
AD31
AD29
REQ#
CLK
TRDY#
INTA#
B
IRDY#
DEVSEL#
REQ#
TRDY#
INTA#
A
D
D
PCI_CLK
P_C/BE#[7..0]
P_AD[63..0]
P_PAR64
P_REQ64#
P_PAR
P_STOP#
P_FRAME#
P_IDSEL
P_GNT#
P_RST#
P_TDO
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
PCI Connector
E
Sheet
2
of
9
Rev
A
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
C/BE/[7..0]
Date:
Size
C
Title
CLK
AD[63..0]
PAR64
REQ64#
PAR
STOP#
FRAME#
IDSEL
GNT#
RST#
E
1
2
3
4
1
2
3
4
MSEL[1..0]
R17
1K
VCCINT
MSEL[1..0]
CONFDONE
DATA
DCLK
nSTATUS
nCONFIG
A_CLK2
A_CLKOUT
RS232_RX
RS232_TX
RS232_CD
RS232_CTS
RS232_DTR
RS232_RTS
RS232_RI
A_TDI
A_TDO
A_TCK
A_TMS
A_TRST#
A
PU3
PU2
PU1
F14
F17
P17
T21
N17
R19
T20
P18
R20
H7
H21
G20
W20
Y21
A2
A25
B2
B25
C3
C10
C24
D3
D4
D19
D23
D24
E4
E23
G23
J5
J23
K4
K10
K17
L11
L16
L22
M5
M12
M14
M15
N13
N14
E13
E17
H2
H25
K16
L10
L12
L14
L17
M2
M25
N11
N12
N15
P12
P15
P16
R14
T2
T10
T12
T14
T17
T25
U16
Y7
AA23
AB10
AC14
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
VCCINT
DATA0
DCLK
nSTATUS
nCONFIG
nCE
nCEO
CONF_DONE
MSEL0
MSEL1
CLK2_IN
CLK2_OUT
RS232_RX
RS232_TX
RS232_CD
RS232_CTS
RS232_DTR
RS232_RTS
RS232_RI
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
0
0
R47
R51
0
R43
0
0
R52
0
R48
0
0
0
R44
R50
R46
R42
P13
P14
P22
R12
R15
T11
T16
U10
U17
U24
V3
Y5
AA13
AA22
AB3
AB4
AB5
AB23
AB24
AC3
AC8
AC24
AD13
AD18
AE2
AE25
AF2
AF25
K15
J15
T18
R17
T19
R18
Y3
V20
Y23
U19
U21
U22
R21
J4
AB6
AD4
AC6
AC5
AC4
AD3
G18
F18
C19
C18
J16
C8
C15
D7
G3
J3
J17
K11
K22
L13
L15
M11
M13
M16
M22
N16
P11
R5
R11
R13
R16
R22
T15
U3
U11
V5
V17
V24
Y2
Y24
AA26
AD15
FLEX10KE-672
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
PROTO1
PROTO2
PROTO3
PROTO4
PROTO5
PROTO6
PROTO7
PROTO8
PROTO9
PROTO10
PROTO11
PROTO12
PROTO13
PROTO14
PROTO15
PROTO16
PROTO17
PROTO18
PROTO19
PROTO20
LED1
LED2
LED3
LED4
SWITCH
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
VCCIO
U5A
VCCIO
PROTO1
PROTO2
PROTO3
PROTO4
PROTO5
PROTO6
PROTO7
PROTO8
PROTO9
PROTO10
PROTO11
PROTO12
PROTO13
PROTO14
PROTO15
PROTO16
PROTO17
PROTO18
PROTO19
PROTO20
LED1
LED2
LED3
LED4
IN_PCI_TRDY#
IN_PCI_STOP#
IN_PCI_IRDY#
Dedicated Input Selectors
TDI
TDO
TCK
TMS
TRST
P_TRDY#
PROTO23
P_STOP#
PROTO22
P_IRDY#
PROTO21
R26 1K
R29 1K
R28 1K
F6
G7
AA21
V9
nCE
G6
G21
H20
MSEL0 W6
MSEL1 Y6
+3.3V
A
LED[4..1]
PROTO[23..1]
B
EXTRA_SWITCH
LED[4..1]
PROTO[23..1]
B
A_CLK1
P_IDSEL
P_DEVSEL#
P_PAR
P_FRAME#
P_IRDY#
P_TRDY#
P_LOCK#
P_STOP#
P_RST#
P_REQ#
P_GNT#
P_INTA#
P_PERR#
P_SERR#
P4_IO1
P4_IO2
P4_IO3
P4_IO4
P4_IO5
P4_IO6
P4_IO7
P4_IO8
P4_IO9
P4_IO10
P4_IO11
P4_IO12
P4_IO13
P4_IO14
P4_IO15
P4_IO16
P4_IO17
P4_IO18
P4_IO19
P4_IO20
P4_IO21
P4_IO22
P4_IO23
P4_IO24
P4_IO25
P4_IO26
P4_IO27
P4_IO28
P4_IO29
P4_IO30
P4_IO31
P4_IO32
P4_IO33
P4_IO34
P4_IO35
P4_IO36
P4_IO37
P4_IO38
P4_IO39
P4_IO40
P4_IO41
P4_IO42
P4_IO43
P4_IO44
P4_IO45
P4_IO46
P4_IO47
P4_IO48
P4_IO49
P4_IO50
P4_IO51
P4_IO52
P4_IO53
P4_IO54
P4_IO55
P4_IO56
P4_IO57
P4_IO58
P4_IO59
P4_IO60
P4_IO61
P4_IO62
P4_IO63
P4_IO64
P_AD0
P_AD1
P_AD2
P_AD3
P_AD4
P_AD5
P_AD6
P_AD7
P_AD8
P_AD9
P_AD10
P_AD11
P_AD12
P_AD13
P_AD14
P_AD15
P_AD16
P_AD17
P_AD18
P_AD19
P_AD20
P_AD21
P_AD22
P_AD23
P_AD24
P_AD25
P_AD26
P_AD27
P_AD28
P_AD29
P_AD30
P_AD31
P_CBEN0
P_CBEN1
P_CBEN2
P_CBEN3
B14
B15
B17
B18
E19
B26
C26
D25
C25
D26
E25
E26
F25
G25
F26
G26
H26
J25
J26
K25
K26
L25
L26
M26
N25
N26
P25
P26
R26
R25
T22
T24
T26
U25
U26
V22
V23
V26
V25
W25
W26
Y25
AA25
Y26
AB26
AA24
AC25
AB25
AC26
AD25
AE24
AF22
AD26
AE26
AD22
AD21
AD20
AF19
AD19
AB18
AE18
AC17
AF17
AD17
T13
R10
Y12
AB20
AA11
U12
V12
U20
W12
G14
V21
AA12
V19
W21
W19
W11
AC10
V11
AC9
AA10
Y10
W10
AB8
V10
AA9
Y9
AB9
AD8
W9
W8
AC7
Y8
AB7
AA8
AA7
AA6
AA5
W7
V7
V6
V8
U8
U7
U9
U6
T6
T8
AB19
Y18
U18
AC21
PCI_AD32
PCI_AD33
PCI_AD34
PCI_AD35
PCI_AD36
PCI_AD37
PCI_AD38
PCI_AD39
PCI_AD40
PCI_AD41
PCI_AD42
PCI_AD43
PCI_AD44
PCI_AD45
PCI_AD46
PCI_AD47
PCI_AD48
PCI_AD49
PCI_AD50
PCI_AD51
PCI_AD52
PCI_AD53
PCI_AD54
PCI_AD55
PCI_AD56
PCI_AD57
PCI_AD58
PCI_AD59
PCI_AD60
PCI_AD61
PCI_AD62
PCI_AD63
PCI_CBEN4
PCI_CBEN5
PCI_CBEN6
PCI_CBEN7
AA18
AC20
W18
AC19
V18
AA17
AC18
W17
Y17
AB17
Y16
AA16
W16
V16
U15
AB16
V15
AC16
W15
AD16
AA15
Y15
V14
W14
Y14
AA14
W13
AB13
V13
AD12
U13
AC12
AA19
AA20
Y19
Y20
P_AD32
P_AD33
P_AD34
P_AD35
P_AD36
P_AD37
P_AD38
P_AD39
P_AD40
P_AD41
P_AD42
P_AD43
P_AD44
P_AD45
P_AD46
P_AD47
P_AD48
P_AD49
P_AD50
P_AD51
P_AD52
P_AD53
P_AD54
P_AD55
P_AD56
P_AD57
P_AD58
P_AD59
P_AD60
P_AD61
P_AD62
P_AD63
P_CBEN4
P_CBEN5
P_CBEN6
P_CBEN7
PMC4_IO1
PMC4_IO2
PMC4_IO3
PMC4_IO4
PMC4_IO5
PMC4_IO6
PMC4_IO7
PMC4_IO8
PMC4_IO9
PMC4_IO10
PMC4_IO11
PMC4_IO12
PMC4_IO13
PMC4_IO14
PMC4_IO15
PMC4_IO16
PMC4_IO17
PMC4_IO18
PMC4_IO19
PMC4_IO20
PMC4_IO21
PMC4_IO22
PMC4_IO23
PMC4_IO24
PMC4_IO25
PMC4_IO26
PMC4_IO27
PMC4_IO28
PMC4_IO29
PMC4_IO30
PMC4_IO31
PMC4_IO32
PMC4_IO33
PMC4_IO34
PMC4_IO35
PMC4_IO36
PMC4_IO37
PMC4_IO38
PMC4_IO39
PMC4_IO40
PMC4_IO41
PMC4_IO42
PMC4_IO43
PMC4_IO44
PMC4_IO45
PMC4_IO46
PMC4_IO47
PMC4_IO48
PMC4_IO49
PMC4_IO50
PMC4_IO51
PMC4_IO52
PMC4_IO53
PMC4_IO54
PMC4_IO55
PMC4_IO56
PMC4_IO57
PMC4_IO58
PMC4_IO59
PMC4_IO60
PMC4_IO61
PMC4_IO62
PMC4_IO63
PMC4_IO64
PMC5_IO1
PMC5_IO2
PMC5_IO3
PMC5_IO4
PMC5_IO5
PMC5_IO6
PMC5_IO7
PMC5_IO8
PMC5_IO9
PMC5_IO10
PMC5_IO11
PMC5_IO12
PMC5_IO13
PMC5_IO14
PMC5_IO15
PMC5_IO16
PMC5_IO17
PMC5_IO18
PMC5_IO19
PMC5_IO20
PMC5_IO21
PMC5_IO22
PMC5_IO23
PMC5_IO24
PMC5_IO25
PMC5_IO26
PMC5_IO27
PMC5_IO28
PMC5_IO29
PMC5_IO30
PMC5_IO31
PMC5_IO32
PMC5_IO33
PMC5_IO34
PMC5_IO35
PMC5_IO36
PMC5_IO37
PMC5_IO38
PMC5_IO39
PMC5_IO40
PMC5_IO41
PMC5_IO42
PMC5_IO43
PMC5_IO44
PMC5_IO45
PMC5_IO46
PMC5_IO47
PMC5_IO48
PMC5_IO49
PMC5_IO50
PMC5_IO51
PMC5_IO52
PMC5_IO53
PMC5_IO54
PMC5_IO55
PMC5_IO56
PMC5_IO57
PMC5_IO58
PMC5_IO59
PMC5_IO60
PMC5_IO61
PMC5_IO62
PMC5_IO63
PMC5_IO64
FLEX10KE-672
U5D
FLEX10KE-672
C
D12
A9
A8
A7
C7
C5
C4
D6
B3
D5
A3
C6
C2
B1
D2
D1
E1
E2
F2
F1
G2
G1
H4
J2
J1
K2
K1
L2
L5
L3
L4
L1
M1
N2
N1
N3
P2
P1
P4
R1
R2
U1
U2
V1
V2
W1
W3
W2
Y1
AA2
AA1
AB2
AB1
U5
AC1
AC2
AD2
AD1
AD7
AD5
AB11
AC11
AF11
AD11
P5_IO1
P5_IO2
P5_IO3
P5_IO4
P5_IO5
P5_IO6
P5_IO7
P5_IO8
P5_IO9
P5_IO10
P5_IO11
P5_IO12
P5_IO13
P5_IO14
P5_IO15
P5_IO16
P5_IO17
P5_IO18
P5_IO19
P5_IO20
P5_IO21
P5_IO22
P5_IO23
P5_IO24
P5_IO25
P5_IO26
P5_IO27
P5_IO28
P5_IO29
P5_IO30
P5_IO31
P5_IO32
P5_IO33
P5_IO34
P5_IO35
P5_IO36
P5_IO37
P5_IO38
P5_IO39
P5_IO40
P5_IO41
P5_IO42
P5_IO43
P5_IO44
P5_IO45
P5_IO46
P5_IO47
P5_IO48
P5_IO49
P5_IO50
P5_IO51
P5_IO52
P5_IO53
P5_IO54
P5_IO55
P5_IO56
P5_IO57
P5_IO58
P5_IO59
P5_IO60
P5_IO61
P5_IO62
P5_IO63
P5_IO64
P5_IO[64..1]
P4_IO[64..1]
P_C/BE#[7..0]
P_AD[63..0]
P5_IO[64..1]
P4_IO[64..1]
P_CBEN[7..0]
P_AD[63..0]
PCI_CLK
PCI_IDSEL
PCI_DEVSEL#
AC22
P_PAR64
PCI_PAR
PCI_PAR64
PCI_FRAME#
Y13 IN_PCI_IRDY#
PCI_IRDY#
IN_PCI_IRDY# U14 IN_PCI_TRDY#
PCI_TRDY#
IN_PCI_TRDY#
PCI_LOCK#
K13 IN_PCI_STOP#
PCI_STOP#
IN_PCI_STOP#
PCI_RST#
PCI_REQ#
Y11
P_REQ64#
PCI_GNT#
PCI_REQ64# AB12
PCI_INTA#
PCI_ACK64#
P_ACK64#
PCI_PERR#
R7
P_M66EN
PCI_SERR#
PCI_M66EN
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
PCI_CBEN0
PCI_CBEN1
PCI_CBEN2
PCI_CBEN3
U5B
C
E_IDSEL
E_DEVSEL#
E_PAR
E_FRAME#
E_IRDY#
E_TRDY#
E_LOCK#
E_STOP#
E_RST#
E_REQ#
E_GNT#
E_INTA#
E_INTB#
E_INTC#
E_INTD#
E_PERR#
E_SERR#
E_AD0
E_AD1
E_AD2
E_AD3
E_AD4
E_AD5
E_AD6
E_AD7
E_AD8
E_AD9
E_AD10
E_AD11
E_AD12
E_AD13
E_AD14
E_AD15
E_AD16
E_AD17
E_AD18
E_AD19
E_AD20
E_AD21
E_AD22
E_AD23
E_AD24
E_AD25
E_AD26
E_AD27
E_AD28
E_AD29
E_AD30
E_AD31
E_CBE0
E_CBE1
E_CBE2
E_CBE3
AC23
D20
F22
F19
E18
C20
Y22
C21
W22
C17
G17
AA3
V4
U4
T5
J20
E24
F3
G4
E3
G5
F5
F4
E8
C9
E11
C11
D11
E12
C13
C14
D14
E14
E15
C16
E16
G22
F23
F24
H22
K18
G24
H23
J22
L18
J24
L20
L19
L21
D21
H19
C23
G19
S_BA0
S_BA1
S_S0#
S_S1#
D
AA4
Y4
W4
W5
C22
E20
R4
P5
E22
K24
M17
M18
L23
M19
L24
M20
M21
N19
M23
M24
N20
N24
N22
N23
N21
P24
P23
N18
P21
R24
P20
R23
P19
T23
U23
W24
W23
AB22
AD23
AD24
AB21
D22
F20
E21
F21
H12
F12
G12
C12
H13
J12
G13
F13
D13
J13
H14
J14
K14
D15
F15
H15
G15
F16
D16
G16
D17
H16
J21
H18
H24
J19
H17
K21
J18
K20
K23
K19
N8
N5
N9
N10
E_BM1
E_BM2
E_BM3
E_BM4
E_CBE[7..0]
E_AD[63..0]
E
S_DQMB[7..0]
S_DQ[63..0]
S_A[13..0]
S_DQMB[7..0]
S_DQ[63..0]
S_A[13..0]
Date:
Size
C
Title
Monday, July 26, 1999
A-DS-PCI-C-01
Document Number
FLEX 10KE
E
Sheet
3
of
9
Rev
A
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
Northwest Logic Design
1905 NW 169th Place, Suite 121
Beaverton, Oregon 97006
E_REQ64#
E_ACK64#
E_SBO#
E_SDONE
E_PAR64
E_AD32
E_AD33
E_AD34
E_AD35
E_AD36
E_AD37
E_AD38
E_AD39
E_AD40
E_AD41
E_AD42
E_AD43
E_AD44
E_AD45
E_AD46
E_AD47
E_AD48
E_AD49
E_AD50
E_AD51
E_AD52
E_AD53
E_AD54
E_AD55
E_AD56
E_AD57
E_AD58
E_AD59
E_AD60
E_AD61
E_AD62
E_AD63
E_CBE4
E_CBE5
E_CBE6
E_CBE7
E_CBE[7..0]
S_SCL
S_SDA
S_CKE0
S_CKE1
S_RAS#
S_CAS#
S_WE#
S_DQ32
S_DQ33
S_DQ34
S_DQ35
S_DQ36
S_DQ37
S_DQ38
S_DQ39
S_DQ40
S_DQ41
S_DQ42
S_DQ43
S_DQ44
S_DQ45
S_DQ46
S_DQ47
S_DQ48
S_DQ49
S_DQ50
S_DQ51
S_DQ52
S_DQ53
S_DQ54
S_DQ55
S_DQ56
S_DQ57
S_DQ58
S_DQ59
S_DQ60
S_DQ61
S_DQ62
S_DQ63
S_DQMB4
S_DQMB5
S_DQMB6
S_DQMB7
E_AD[63..0]
T4
SDRAM_SCL R6
SDRAM_SDA
R9
SDRAM_CKE0 P6
SDRAM_CKE1
P8
SDRAM_RAS# P7
SDRAM_CAS# N7
SDRAM_WE#
SDRAM_DQ32
SDRAM_DQ33
SDRAM_DQ34
SDRAM_DQ35
SDRAM_DQ36
SDRAM_DQ37
SDRAM_DQ38
SDRAM_DQ39
SDRAM_DQ40
SDRAM_DQ41
SDRAM_DQ42
SDRAM_DQ43
SDRAM_DQ44
SDRAM_DQ45
SDRAM_DQ46
SDRAM_DQ47
SDRAM_DQ48
SDRAM_DQ49
SDRAM_DQ50
SDRAM_DQ51
SDRAM_DQ52
SDRAM_DQ53
SDRAM_DQ54
SDRAM_DQ55
SDRAM_DQ56
SDRAM_DQ57
SDRAM_DQ58
SDRAM_DQ59
SDRAM_DQ60
SDRAM_DQ61
SDRAM_DQ62
SDRAM_DQ63
SDRAM_DQMB4
SDRAM_DQMB5
SDRAM_DQMB6
SDRAM_DQMB7
FLEX10KE-672
SDRAM_A0
SDRAM_A1
SDRAM_A2
SDRAM_A3
SDRAM_A4
SDRAM_A5
SDRAM_A6
SDRAM_A7
SDRAM_A8
SDRAM_A9
SDRAM_A10
SDRAM_A11
SDRAM_A12
SDRAM_A13
SDRAM_BA0
SDRAM_BA1
SDRAM_S0#
SDRAM_S1#
PMC_IDSEL
PMC_DEVSEL#
PMC_PAR
PMC_PAR64
PMC_FRAME#
PMC_IRDY#
PMC_TRDY#
PMC_SBO
PMC_LOCK#
PMC_SDONE
PMC_STOP#
PMC_RST#
PMC_REQ#
PMC_REQ64#
PMC_GNT#
PMC_ACK64#
PMC_INTA#
PMC_INTB#
PMC_INTC#
PMC_BM1
PMC_INTD#
PMC_BM2
PMC_PERR#
PMC_BM3
PMC_SERR#
PMC_BM4
FLEX10KE-672
U5C
SDRAM_DQ0
SDRAM_DQ1
SDRAM_DQ2
SDRAM_DQ3
SDRAM_DQ4
SDRAM_DQ5
SDRAM_DQ6
SDRAM_DQ7
SDRAM_DQ8
SDRAM_DQ9
SDRAM_DQ10
SDRAM_DQ11
SDRAM_DQ12
SDRAM_DQ13
SDRAM_DQ14
SDRAM_DQ15
SDRAM_DQ16
SDRAM_DQ17
SDRAM_DQ18
SDRAM_DQ19
SDRAM_DQ20
SDRAM_DQ21
SDRAM_DQ22
SDRAM_DQ23
SDRAM_DQ24
SDRAM_DQ25
SDRAM_DQ26
SDRAM_DQ27
SDRAM_DQ28
SDRAM_DQ29
SDRAM_DQ30
SDRAM_DQ31
SDRAM_DQMB0
SDRAM_DQMB1
SDRAM_DQMB2
SDRAM_DQMB3
PMC_AD32
PMC_AD33
PMC_AD34
PMC_AD35
PMC_AD36
PMC_AD37
PMC_AD38
PMC_AD39
PMC_AD40
PMC_AD41
PMC_AD42
PMC_AD43
PMC_AD44
PMC_AD45
PMC_AD46
PMC_AD47
PMC_AD48
PMC_AD49
PMC_AD50
PMC_AD51
PMC_AD52
PMC_AD53
PMC_AD54
PMC_AD55
PMC_AD56
PMC_AD57
PMC_AD58
PMC_AD59
PMC_AD60
PMC_AD61
PMC_AD62
PMC_AD63
PMC_CBEN4
PMC_CBEN5
PMC_CBEN6
PMC_CBEN7
J8
H6
J6
J7
E5
K9
D8
H5
H10
G8
E9
F7
H8
G9
T7
T3
T9
R8
S_A0
S_A1
S_A2
S_A3
S_A4
S_A5
S_A6
S_A7
S_A8
S_A9
S_A10
S_A11
S_A12
S_A13
U5E
M6
M3
M7
M8
M9
M10
K3
L7
L6
K6
L8
K5
K7
L9
K8
H9
E7
F8
E6
D9
F9
F10
J9
E10
G10
D10
J11
H11
J10
F11
K12
G11
P3
P9
P10
N6
S_DQ0
S_DQ1
S_DQ2
S_DQ3
S_DQ4
S_DQ5
S_DQ6
S_DQ7
S_DQ8
S_DQ9
S_DQ10
S_DQ11
S_DQ12
S_DQ13
S_DQ14
S_DQ15
S_DQ16
S_DQ17
S_DQ18
S_DQ19
S_DQ20
S_DQ21
S_DQ22
S_DQ23
S_DQ24
S_DQ25
S_DQ26
S_DQ27
S_DQ28
S_DQ29
S_DQ30
S_DQ31
S_DQMB0
S_DQMB1
S_DQMB2
S_DQMB3
PMC_AD0
PMC_AD1
PMC_AD2
PMC_AD3
PMC_AD4
PMC_AD5
PMC_AD6
PMC_AD7
PMC_AD8
PMC_AD9
PMC_AD10
PMC_AD11
PMC_AD12
PMC_AD13
PMC_AD14
PMC_AD15
PMC_AD16
PMC_AD17
PMC_AD18
PMC_AD19
PMC_AD20
PMC_AD21
PMC_AD22
PMC_AD23
PMC_AD24
PMC_AD25
PMC_AD26
PMC_AD27
PMC_AD28
PMC_AD29
PMC_AD30
PMC_AD31
PMC_CBEN0
PMC_CBEN1
PMC_CBEN2
PMC_CBEN3
D
1
2
3
4
1
2
3
4
A
A
S_SDA
S_RAS#
S_WE#
S_S0#
S_S1#
S_CK0
S_DQMB[7..0]
S_A[13..0]
S_DQ[63..0]
S_DQMB[7..0]
S_A[13:0]
S_DQ[63..0]
B
B
S_SDA
S_DQ28
S_DQ29
S_DQ30
S_DQ31
S_DQ24
S_DQ25
S_DQ26
S_DQ27
S_DQMB2
S_DQMB3
S_A9
S_A10
S_A6
S_A8
S_DQ20
S_DQ21
S_DQ22
S_DQ23
S_DQ16
S_DQ17
S_DQ18
S_DQ19
S_RAS#
S_WE#
S_S0#
S_S1#
S_CK0
S_DQ12
S_DQ13
S_DQ14
S_DQ15
S_DQ8
S_DQ9
S_DQ10
S_DQ11
S_A0
S_A1
S_A2
S_DQMB0
S_DQMB1
S_DQ4
S_DQ5
S_DQ6
S_DQ7
S_DQ0
S_DQ1
S_DQ2
S_DQ3
+3.3V
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
125
127
129
131
133
135
137
139
141
143
Vss
DQ32
DQ33
DQ34
DQ35
Vdd
DQ36
DQ37
DQ38
DQ39
Vss
DQMB4
DQMB5
Vdd
A3
A4
A5
Vss
DQ40
DQ41
DQ42
DQ43
Vdd
DQ44
DQ45
DQ46
DQ47
Vss
NC
NC
CKE0
Vdd
CAS#
CKE1
A12
A13
CK1
Vss
NC
NC
Vdd
DQ48
DQ49
DQ50
DQ51
Vss
DQ52
DQ53
DQ54
DQ55
Vdd
A7
BA0
Vss
BA1
NC
Vdd
DQMB6
DQMB7
Vss
DQ56
DQ57
DQ58
DQ59
Vdd
DQ60
DQ61
DQ62
DQ63
Vss
SCL
Vdd
SO-DIMM144
Vss
DQ0
DQ1
DQ2
DQ3
Vdd
DQ4
DQ5
DQ6
DQ7
Vss
DQMB0
DQMB1
Vdd
A0
A1
A2
Vss
DQ8
DQ9
DQ10
DQ11
Vdd
DQ12
DQ13
DQ14
DQ15
Vss
NC
NC
CK0
Vdd
RAS#
WE#
S0#
S1#
DNU
Vss
NC
NC
Vdd
DQ16
DQ17
DQ18
DQ19
Vss
DQ20
DQ21
DQ22
DQ23
Vdd
A6
A8
Vss
A9
A10
Vdd
DQMB2
DQMB3
Vss
DQ24
DQ25
DQ26
DQ27
Vdd
DQ28
DQ29
DQ30
DQ31
Vss
SDA
Vdd
S1
C
C
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
126
128
130
132
134
136
138
140
142
144
+3.3V
S_SCL
S_DQ60
S_DQ61
S_DQ62
S_DQ63
S_DQ56
S_DQ57
S_DQ58
S_DQ59
S_DQMB6
S_DQMB7
S_BA1
S_A11
S_A7
S_BA0
S_DQ52
S_DQ53
S_DQ54
S_DQ55
S_DQ48
S_DQ49
S_DQ50
S_DQ51
S_CAS#
S_CKE1
S_A12
S_A13
S_CK1
S_CKE0
S_DQ44
S_DQ45
S_DQ46
S_DQ47
S_DQ40
S_DQ41
S_DQ42
S_DQ43
S_A3
S_A4
S_A5
S_DQMB4
S_DQMB5
S_DQ36
S_DQ37
S_DQ38
S_DQ39
S_DQ32
S_DQ33
S_DQ34
S_DQ35
D
D
S_SCL
S_BA0
S_BA1
S_CK1
S_CKE0
S_CAS#
S_CKE1
Date:
Size
C
Title
Monday, July 26, 1999
A-DS-PCI-C-01
Document Number
SDRAM
E
Sheet
4
of
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
E
9
Rev
A
1
2
3
4
1
2
3
4
P4_IO[64..1]
E_SDONE
E_PAR
E_DEVSEL#
E_FRAME#
E_REQ#
E_CLK
E_INTB#
E_BM1
E_INTD#
E_TCK
E_AD[63..0]
E_CBE[7..0]
A
E_SDONE
E_PAR
E_DEVSEL#
E_FRAME#
E_REQ#
E_CLK
E_INTB#
E_BM1
E_INTD#
E_TCK
E_AD[63..0]
E_CBE[7..0]
A
E_AD35
E_AD33
E_AD39
E_AD37
E_AD43
E_AD41
E_AD47
E_AD45
E_AD51
E_AD49
E_AD55
E_AD53
E_AD59
E_AD57
E_AD63
E_AD61
E_CBE6
E_CBE4
E_AD2
E_AD0
E_AD6
E_AD4
E_AD12
E_AD9
E_AD22
E_AD19
E_AD28
E_AD25
E_VIO
E_VIO
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
-12V+5.0V
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
PMC_RECEPTACLE
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
Jn3
PMC_RECEPTACLE
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
Jn1
E_AD32
E_AD36
E_AD34
E_AD40
E_AD38
E_AD44
E_AD42
E_AD48
E_AD46
E_AD52
E_AD50
E_AD56
E_AD54
E_AD60
E_AD58
E_AD62
E_CBE7
E_CBE5
E_AD3
E_AD1
E_CBE0
E_AD5
E_AD15
E_AD11
E_AD17
E_CBE3
E_AD21
E_AD31
E_AD27
B
B
E_PAR64
E_REQ64#
E_LOCK#
E_SBO#
E_IRDY#
E_GNT#
E_INTA#
E_INTC#
E_PAR64
E_REQ64#
E_LOCK#
E_SBO#
E_IRDY#
E_GNT#
E_INTA#
E_INTC#
E_ACK64#
E_PERR#
E_TRDY#
E_IDSEL
E_BM2
E_RST#
E_TMS
E_TDI
E_ACK64#
E_PERR#
E_TRDY#
E_IDSEL
E_BM2
E_RST#
E_TMS
E_TDI
C
C
E_AD8
E_AD7
P4_IO1
P4_IO3
P4_IO5
P4_IO7
P4_IO9
P4_IO11
P4_IO13
P4_IO15
P4_IO17
P4_IO19
P4_IO21
P4_IO23
P4_IO25
P4_IO27
P4_IO29
P4_IO31
P4_IO33
P4_IO35
P4_IO37
P4_IO39
P4_IO41
P4_IO43
P4_IO45
P4_IO47
P4_IO49
P4_IO51
P4_IO53
P4_IO55
P4_IO57
P4_IO59
P4_IO61
P4_IO63
E_CBE1
E_AD14
E_AD18
E_AD16
E_AD24
E_AD30
+3.3V
+12V
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
+3.3V
P4_IO2
P4_IO4
P4_IO6
P4_IO8
P4_IO10
P4_IO12
P4_IO14
P4_IO16
P4_IO18
P4_IO20
P4_IO22
P4_IO24
P4_IO26
P4_IO28
P4_IO30
P4_IO32
P4_IO34
P4_IO36
P4_IO38
P4_IO40
P4_IO42
P4_IO44
P4_IO46
P4_IO48
P4_IO50
P4_IO52
P4_IO54
P4_IO56
P4_IO58
P4_IO60
P4_IO62
P4_IO64
PMC_RECEPTACLE
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
Jn4
PMC_RECEPTACLE
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
Jn2
E_AD13
E_AD10
E_CBE2
E_AD23
E_AD20
E_AD29
E_AD26
D
E_VIO
E_SERR#
E_STOP#
E_BM3
E_BM4
E_TRST#
E_TDO
D
C9
10UF
E_SERR#
E_STOP#
E_BM3
E_BM4
E_TRST#
E_TDO
C43
0.1UF
C27
0.1UF
R9 0
R11 0
R10 0
R8 0
E_VIO
C42
0.1UF
C51
0.1UF
Date:
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
Expansion Connector
E
Sheet
5
of
9
C47
0.1UF
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
Size
C
Title
C33
0.1UF
+5.0V +3.3V
E
Rev
A
1
2
3
4
1
2
3
nSTATUS
CONFDONE
A
+5.0V
+3.3V
nSTATUS
CONFDONE
1
3
5
7
9
HEADER5X2
2
4
6
8
10
JP4
JTAG
R30
1K
4
R34
1K
B
R38
1K
C
TDI
TCK
TDO
TMS
TM
R21
R22
R23
R12
R13
R20
R15
BitBlaster
+3.3V
+3.3V
+3.3V
R24
1K
10
13
11
19
3
9
8
5
14
C
EPC2
GND
VCC
VPP
TDO
DCLK
DATA
CASC
INIT_CONF
TDI
TMS
TCK
CS
OE
VCCSEL
VPPSEL
U9
R18
0
R37
1K
R16
0
2
PROM_TDO
PROM_DCLK
4
1
PROM_DATA
74HCT125
U6A
2
12
20
18
3
+3.3V
nCONFIG
nSTATUS
DCLK
CONFDONE
nCONFIG
nSTATUS
DATA
DOWNLOAD PROM
+3.3V
HEADER5X2
2
4
6
8
10
1
3
5
7
9
nCONFIG
nSTATUS
DATA
MSEL0
MSEL1
JP3
PROM_CS
+5.0V
+3.3V
1K
1K
1K
1K
1K
1K
1K
nSTATUS
CONFDONE
CONFIGURATION LOGIC AND JTAG
6
74HCT125
U6B
+3.3V
R33
1K
R31
1K
UNUSED 5
UNUSED_TRI
B
1
4
A
12
9
DCLK
1
2
3
4
5
6
7
8
9
10
20
19
18
17
16
15
14
13
12
11
SW_DIP-10
S2
U6D
74HCT125
11
U6C
74HCT125
8
D
+3.3V
R25
1K
+3.3V
R27
1K
EXTRA_SWITCH
A_TRST#
A_TDO
A_TMS
A_TCK
A_TDI
E_TRST#
E_TMS
E_TCK
E_TDI
E_TDO
E
DCLK
MSEL[1..0]
DATA
nCONFIG
Date:
Size
C
Title
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
E
Configuration and Programming
Sheet
6
of
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
DCLK
MSEL[1..0]
DATA
MSEL[1..0]
nCONFIG
DATA
D
nCONFIG
PROM_SELECT
10
13
9
Rev
A
1
2
3
4
1
2
3
4
A
A
PROTO_CLK
PROTO[23..1]
LED[4..1]
RS232_RX
RS232_CTS
RS232_CD
RS232_RI
RS232_TX
RS232_DTR
RS232_RTS
+
C70
0.1uF
+
C66
0.1uF
PROTO_CLK
PROTO[23..1]
LED[4..1]
13
C2POS
9
LED4
PROTO5
PROTO4
PROTO3
PROTO2
8
6
4
CON1
1
J36
CON1
CON1
J33
1
B
+5.0V
CON1
1
1
J32
CON1
PROTO10
J29
J28
1
CON1
1
CON1
PROTO9
J25
J24
1
CON1
CON1
1
J21
1
CON1
PROTO8
J20
1
CON1
1
J17
PROTO7
nLED4
nLED3
nLED2
J16
1
J13
GND
15
11
nLED1
V-
V+
7
R_IN 3
R_IN 16
R_IN 23
R_IN
2
T_OUT 1
T_OUT 24
T_OUT 20
T_OUT
CON1
PROTO6
74HCT04
U4D
74HCT04
U4C
74HCT04
U4B
74HCT04
2
MAX208
GND
C2-
C2+
C1-
C1+
R_OUT
R_OUT
R_OUT
R_OUT
T_IN
T_IN
T_IN
T_IN
VCC
U10
CON1
1
5
LED3
J12
3
LED2
PROTO1
1
LED1
U4A
8
14
12
C1NEG
C2NEG
10
C1POS
6
4
17
22
RX
CTS
CD
RI
9
5
18
19
21
TX
DTR
RTS
+5.0V
B
VNEG
VPOS
R_RX
R_CTS
R_CD
R_RI
R_TX
R_DTR
R_RTS
0.1uF
C67
+3.3V
PROTO15
PROTO14
PROTO13
PROTO12
PROTO11
+
CON1
1
J34
CON1
1
J30
CON1
1
J26
CON1
1
J22
CON1
1
J18
CON1
1
J14
+
JP5
DB9-MALE
C69
0.1uF
VCCINT
PROTO20
PROTO19
PROTO18
PROTO17
CON1
1
J35
CON1
1
J31
CON1
1
J27
CON1
1
J23
CON1
1
J19
CON1
1
J15
5
PROTO16
6
7
8
4
LED-QUAD4
LED1
3
2
1
5
9
4
8
3
7
2
6
1
C
+5.0V
C
PROTO23
PROTO22
PROTO21
VCC
CON1
1
J39
CON1
1
J38
CON1
1
J37
R19
1K
R14
1K
UNUSED2
UNUSED1
74HCT04
U4F
74HCT04
EXTRA
GATES
13
11
U4E
12
10
D
D
P5_IO[64:1]
P5_IO[64:1]
P5_IO32
P5_IO31
P5_IO30
P5_IO29
P5_IO28
P5_IO27
P5_IO26
P5_IO25
P5_IO24
P5_IO23
P5_IO22
P5_IO21
P5_IO20
P5_IO19
P5_IO18
P5_IO17
P5_IO16
P5_IO15
P5_IO14
P5_IO13
P5_IO12
P5_IO11
P5_IO10
P5_IO9
P5_IO8
P5_IO7
P5_IO6
P5_IO5
P5_IO4
P5_IO3
P5_IO2
P5_IO1
P5_IO64
P5_IO63
P5_IO62
P5_IO61
P5_IO60
P5_IO59
P5_IO58
P5_IO57
P5_IO56
P5_IO55
P5_IO54
P5_IO53
P5_IO52
P5_IO51
P5_IO50
P5_IO49
P5_IO48
P5_IO47
P5_IO46
P5_IO45
P5_IO44
P5_IO43
P5_IO42
P5_IO41
P5_IO40
P5_IO39
P5_IO38
P5_IO37
P5_IO36
P5_IO35
P5_IO34
P5_IO33
CON1
1
CON1
TP64
1
CON1
TP62
1
CON1
TP60
1
CON1
TP58
1
CON1
TP56
1
CON1
TP54
1
CON1
TP52
1
CON1
TP50
1
CON1
TP48
1
CON1
TP46
1
CON1
TP44
1
CON1
TP42
1
CON1
TP40
1
CON1
TP38
1
CON1
TP36
1
CON1
TP34
1
CON1
TP32
1
CON1
TP30
1
CON1
TP28
1
CON1
TP26
1
CON1
TP24
1
CON1
TP22
1
CON1
TP20
1
CON1
TP18
1
CON1
TP16
1
CON1
TP14
1
CON1
TP12
1
CON1
TP10
1
CON1
TP8
1
CON1
TP6
1
CON1
TP4
1
TP2
Date:
Size
C
Title
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
E
RS-232, LEDs, and Proto Area
Sheet
7
of
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
CON1
1
CON1
TP63
1
CON1
TP61
1
CON1
TP59
1
CON1
TP57
1
CON1
TP55
1
CON1
TP53
1
CON1
TP51
1
CON1
TP49
1
CON1
TP47
1
CON1
TP45
1
CON1
TP43
1
CON1
TP41
1
CON1
TP39
1
CON1
TP37
1
CON1
TP35
1
CON1
TP33
1
CON1
TP31
1
CON1
TP29
1
CON1
TP27
1
CON1
TP25
1
CON1
TP23
1
CON1
TP21
1
CON1
TP19
1
CON1
TP17
1
CON1
TP15
1
CON1
TP13
1
CON1
TP11
1
CON1
TP9
1
CON1
TP7
1
CON1
TP5
1
CON1
TP3
1
TP1
E
9
Rev
A
1
2
3
4
OUTPUT
HALFSIZE_OSC
GND
OE
VCC
U3
150
R40
B
0
0
0
R49
R45
0
R36
R41
0
0
0
R32
R39
R35
CLOCK SELECT
RESISTORS
C
PCI_REF
SEL_CLK
+3.3V
+3.3V
4
1
6
4
1
6
CY2305
GND
REF
Vdd
U8
CY2305
GND
REF
Vdd
U7
CLK1
CLK2
CLK3
CLK4
CLKOUT
CLK1
CLK2
CLK3
CLK4
CLKOUT
PCI_CLK0
PCI_CLK1
PCI_CLK2
PCI_CLK3
PCI_CLK4
3
2
5
7
CLK2_1
CLK2_2
CLK2_3
CLK2_4
CLK2_0
8
3
2
5
7
8
D
C55
10PF
C56
10PF
C53
10PF
A_CLK1
S_CK0
S_CK1
E_CLK
PROTO_CLK
A_CLK2
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
E
9
Rev
A
3
4
Date:
Size
C
Title
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
Clock Distribution
E
Sheet
8
of
1
5
OSC_CLK
D
1
PCI_CLK
A_CLKOUT
2
JP1
SMB_CONN
1
EXT_CLK
5
C
2
A
4
1
8
EXTERNAL CLOCK INPUT
+5.0V
B
2
3
4
A
3
4
1
2
3
4
C17
1uF
1
2
3
4
A
+
C2
47UF
HEADER4
JP2
A
+
C7
47UF
+5.0V
C39
0.1UF
C52
0.1UF
C14
10UF
C64
0.1UF
VCCINT
+3.3V
+5.0V
+5.0V
C29
0.01uF
+5.0V
C16
0.1uF
C45
0.1UF
C62
0.1UF
C38
0.1UF
C15
10UF
REF_1
SS_1
R3
510
6
2
3
1
+3.3V
LX
V+
CC
N.C.
C54
0.1UF
C40
0.1UF
C30
0.1UF
C10
10UF
MAX750A
GND
REF
SS
SHDN
U1
4
5
7
8
B
C50
0.1UF
C61
0.1UF
C32
0.1UF
C13
10UF
CC_1
B
330pF
C25
C63
0.1UF
C41
0.1UF
C24
0.1UF
C11
10UF
VCCINT
LX_1
2
C58
0.1UF
C44
0.1UF
C68
0.1UF
C12
10UF
R1
13.0K
R2
22.1K
1
+
C49
0.1UF
C46
0.1UF
C35
0.1UF
C1
47UF
MBRS130LT3
D1
2
1
+
+3.3V
3
50UH
4
L1
C60
0.1UF
C65
0.1UF
C20
0.1UF
C4
47UF
VCCIO
C
C37
0.1UF
C34
0.1UF
C31
0.1UF
C22
1uF
POWER SUPPLY
C
+
+
C23
0.1UF
C21
0.1UF
C28
0.1UF
C5
47UF
C6
47UF
C36
0.1UF
C26
0.01uF
+5.0V
C57
0.1UF
C18
0.1uF
REF_2
SS_2
R4
510
6
2
3
1
C59
0.1UF
MAX750A
GND
REF
SS
SHDN
U2
4
5
7
8
C48
0.1UF
CC
N.C.
LX
V+
D
D
CC_2
330pF
C19
LX_2
R6
13.0K
R5
22.1K
R7
35.7K
2
2
+
C8
47UF
MBRS130LT3
D2
1
+
C3
47UF
VCCINT +2.5V
3
50UH
4
L2
E
Date:
Size
C
Title
Monday, July 26, 1999
Document Number
A-DS-PCI-C-01
Power Supplies
E
Sheet
9
of
Altera Corporation - FLEX 10KE PCI Development Board Data Sheet
1
9
Rev
A
1
2
3
4