IDT IDT77252L155PGI 155 mbps atm sar controller with abr support for pci-based networking application Datasheet

IDT77252
155 Mbps ATM SAR Controller
With ABR Support for PCI-based
Networking Applications
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Utility Bus Interface for PHY Management
Serial EEPROM Interface
◆
EPROM Interface
◆ PCI 2.1 Compliant
◆
UNI 3.1, TM 4.0 Compliant
◆
Meets PCI Bus Power Management and Interface
Specification Revision 1.1
◆
Pin Compatible with IDT 77211 SAR
◆ Commercial and Industrial Temperature Ranges
◆
208-Lead PQFP Package (28 x 28mm)
◆
Software Drivers:
– SARWIN 2 Demonstration Program
– NDIS Driver
– Vx Works (3rd party)
– Linux (3rd party)
◆
Full-duplex Segmentation and Reassembly (SAR) at 155
Mbps "wire-speed" (310 Mbps aggregate speed)
Operates with ATM Networks up to 155.52 Mbps
Stand-alone Controller: Embedded Processor not required
Performs ATM Layer Protocol Functions
Supports AAL5, AAL3/4, AAL0 and Raw Cell Formats
Supports Constant Bit Rate (CBR), Variable Bit Rate (VBR),
and Unassigned Bit Rate (UBR), and Available Bit Rate
(ABR) Service Classes
Segments and Reassembles CS-PDUs into Host Memory
Up to 16K Open Transmit Connections
Up to 16K Simultaneous Receive Connections
ABR, VBR, UBR Selectable per VC Time-out
Automatic AAL5 Padding
Four Buffer Pools for Independent or Chained Reassembly
Supports Any Buffer Alignment Condition
Free Buffer Queues Mapped Into PCI Memory Space
Rx FIFO Size (Configurable to 1024 Kbytes)
Configurable Transmit FIFO Depth for Reduced Latency
Supports Big and Little Endian Data Transfers
Null Cell Disable Option During Transmit
NAND Test Mode
RM Cell Handling
UTOPIA Level 1 Interface to PHY
32
The IDT77252 NICStAR™ is a member of IDT's family of products for
Asynchronous Transfer Mode (ATM) networks. The ABR SAR performs
both the ATM Adaptation Layer (AAL) Segmentation and Reassembly
(SAR) function and the ATM layer protocol functions.
A Network Interface Card (NIC) or internetworking product based on
the ABR SAR uses host memory, rather than local memory, to reassemble Convergence Sublayer Protocol Data Units (CS-PDUs) from
ATM cell payloads received from the network. When transmitting, as CSPDUs become ready, they are queued in host memory and segmented
16K x 32 to 512K x 32
SRAM
PCI BUS
EPROM
8
PCI Interface
Rx UTOPIA Bus
8
33MHZ
32
IDT77252
155Mbps
PCI ATM
ABR SAR
155Mbps
2
Tx UTOPIA Bus
8
PHY
2
Utility Bus
8
80.0MHZ OSC.
EEPROM
4057 drw 01
1 of 17
 2001 Integrated Device Technology, Inc.
March 26, 2001
DSC 4057/8
IDT77252
by the ABR SAR into ATM cell payloads. From this, the ABR SAR then creates complete 53-byte ATM cells which are sent through the network. The
ABR SAR's on-chip PCI bus master interface provides efficient, low latency DMA transfers with the host system, while its UTOPIA interface provides
direct connection to PHY components used in 25.6 Mbps to 155 Mbps ATM networks.
The IDT77252 is fabricated using state-of-the-art CMOS technology, providing the highest levels of integration, performance and reliability, with the
low-power consumption characteristics of CMOS.
Transm it
C ontrol
Tx
U topia
Interface
T x U topia
Bus
8
/
32
PCI Bus
.
32
/
SRAM
Bus
/
S R A M IN T E R FA CE
PCI
Interface
Receive
C ontrol
Rx
U topia
Interface
8
R x U topia
/ Bus
8
/
U tility
EE PRO M O U T
E E P R O M IN
4057 drw 02
GND
Vcc
REQ
GNT
CLK
RST
GND
NAND_EN
GND
GND
CLK_OUT
Vcc
Vcc
ADD18_17_EN
GND
NAND_OUT
GND
TXPARITY
PHY_CLK
RXCLK
GND
RXEMPTY/RxCLAV
RXENB
RXSOC
RXDATA(7)
RXDATA(6)
RXDATA(5)
RXDATA(4)
GND
RXDATA(3)
RXDATA(2)
RXDATA(1)
RXDATA(0)
GND
TXCLK
TXFULL/TxCLAV
TXENB
TXSOC
GND
TXDATA(7)
TXDATA(6)
VCC
TXDATA(5)
TXDATA(4)
GND
TXDATA(3)
TXDATA(2)
TXDATA(1)
TXDATA(0)
UTL_CS(1)
UTL_CS(0)
Vcc
Vcc
AD(31)
AD(30)
AD(29)
AD(28)
AD(27)
AD(26)
GND
GND
AD(25)
AD(24)
C/BE(3)
IDSEL
AD(23)
AD(22)
GND
GND
AD(21)
Vcc
AD(20)
AD(19)
AD(18)
AD(17)
AD(16)
GND
GND
C/BE(2)
Vcc
FRAME
IRDY
TRDY
DEVSEL
STOP
GND
GND
INTA
Vcc
PERR
SERR
PAR
C/BE(1)
AD(15)
GND
GND
AD(14)
AD(13)
AD(12)
AD(11)
AD(10)
AD(9)
AD(8)
GND
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
208 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
000000009999999999888888888877777777776666666666555
7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7156
155
Index
154
153
152
151
150
149
148
147
146
145
144
143
142
141
140
139
138
137
136
IDT77252 SAR Controller
135
With ABR Support
134
133
208 Pin PQFP
132
Pinout
131
130
PU-208
129
DUI-208
128
127
126
Refer to PSC-4053 for
125
124
detailed package drawing
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
1 1 1 1 1 106
5 5 5 5 5 5 5 6 6 6 6 6 6 6 6 6 6 7 7 7 7 7 7 7 7 7 7 8 8 8 8 8 8 8 8 8 8 9 9 9 9 9 9 9 9 9 9 0 0 0 0 0 105
34567 890 123 456789 012 345 678901234 56789 012345 67890 1234
Vcc
GND
C/BE(0)
AD(7)
Vcc
AD(6)
AD(5)
AD(4)
GND
SR_A17
AD(3)
AD(2)
AD(1)
AD(0)
GND
SR_A15
SR_WE
SR_A13
SR_A8
SR_A9
SR_A11
SR_OE
SR_A10
SR_CS
SR_A16
GND
SR_A14
Vcc
SR_A12
SR_A7
SR_A6
SR_A5
SR_A4
SR_A3
SR_A2
SR_A1
SR_A0
SR_A18
GND
SR_I/O(0)
SR_I/O(1)
SR_I/O(2)
SR_I/O(3)
SR_I/O(4)
SR_I/O(5)
GND
SR_I/O(6)
SR_I/O(7)
SR_I/O(8)
SR_I/O(9)
SR_I/O(10)
GND
2 of 17
GND
PHY_INT
PHY_RST
UTL_ALE
UTL_RD
UTL_WR
GND
UTL_AD(7)
UTL_AD(6)
UTL_AD(5)
UTL_AD(4)
Vcc
UTL_AD(3)
GND
UTL_AD(2)
UTL_AD(1)
UTL_AD(0)
Vcc
SAR_CLK
GND
EEDO
EEDI
EESCLK
EECS
Vcc
E_CE
SR_I/O(31)
SR_I/O(30)
SR_I/O(29)
GND
SR_I/O(28)
SR_I/O(27)
SR_I/O(26)
SR_I/O(25)
SR_I/O(24)
Vcc
SR_I/O(23)
GND
SR_I/O(22)
SR_I/O(21)
SR_I/O(20)
SR_I/O(19)
SR_I/O(18)
SR_I/O(17)
GND
SR_I/O(16)
SR_I/O(15)
SR_I/O(14)
SR_I/O(13)
SR_I/O(12)
SR_I/O(11)
Vcc
4057 drw 03
March 26, 2001
IDT77252
! 1.228 ±0.016 (31.2 ±0.4)
1.10 ±0.004 (28.0 ±0.1)
208
1
157
Index
156
1.10 ±0.004 (28.0 ±0.1)
1.228 ±0.016 (31.2 ±0.4)
0.02 ±0.004
(0.5 ±0.1)
0.008 ±0.004
(0.2 ±0.1)
105
52
104
53
0.133 ±0.004
(3.37 ±0.1)
0.013 ±0.002
(0.33 ±0.06)
0.024 ±0.008
(0.6 ±0.2)
0.063 (1.6)
4057 drw 04
1
VCC
I
power
2
AD(31)
I/O
PCI
address/data line
3
AD(30)
I/O
PCI
address/data line
4
AD(29)
I/O
PCI
address/data line
5
AD(28)
I/O
PCI
address/data line
6
AD(27)
I/O
PCI
address/data line
7
AD(26)
I/O
PCI
address/data line
8
GND
I
power
9
GND
I
power
10
AD(25)
I/O
PCI
address/data line
11
AD(24)
I/O
PCI
address/data line
12
C/BE(3)
I/O
PCI
bus command
13
IDSEL
I
PCI
bus ID select
3 of 17
March 26, 2001
IDT77252
14
AD(23)
I/O
PCI
address/data line
15
AD(22)
I/O
PCI
address/data line
16
GND
I
power
17
GND
I
power
18
AD(21)
I/O
PCI
19
VCC
I
power
20
AD(20)
I/O
PCI
address/data line
21
AD(19)
I/O
PCI
address/data line
22
AD(18)
I/O
PCI
address/data line
23
AD(17)
I/O
PCI
address/data line
24
AD(16)
I/O
PCI
address/data line
25
GND
I
power
26
GND
I
power
27
C/BE(2)
I/O
PCI
28
VCC
I
power
29
Frame
I/O
PCI
cycle frame
30
IRDY
I/O
PCI
initiator ready
31
TRDY
I/O
PCI
target ready
32
DEVSEL
I/O
PCI
target indicating address decode
33
STOP
I/O
PCI
target requesting master to stop
34
GND
I
power
35
GND
I
power
36
INTA
O
PCI
37
VCC
I
power
38
PERR
I/O
PCI
data parity error
39
SERR
O
PCI
system error
40
PAR
I/O
PCI
parity (for AD[0:31] and C/BE[0:3])
41
C/BE(1)
I/O
PCI
bus command
42
AD(15)
I/O
PCI
address/data line
43
GND
I
power
44
GND
I
power
45
AD(14)
I/O
PCI
address/data line
46
AD(13)
I/O
PCI
address/data line
47
AD(12)
I/O
PCI
address/data line
48
AD(11)
I/O
PCI
address/data line
49
AD(10)
I/O
PCI
address/data line
50
AD(9)
I/O
PCI
address/data line
51
AD(8)
I/O
PCI
address/data line
52
GND
I
power
4 of 17
address/data line
bus command
"interrupt" "A" "request"
March 26, 2001
IDT77252
53
VCC
I
power
54
GND
I
power
55
C/BE(0)
I/O
PCI
bus command
56
AD(7)
I/O
PCI
address/data line
57
VCC
I
power
58
AD(6)
I/O
PCI
address/data line
59
AD(5)
I/O
PCI
address/data line
60
AD(4)
I/O
PCI
address/data line
61
GND
I
power
62
SR_A17
O
SRAM
Address line
63
AD(3)
I/O
PCI
address/data line
64
AD(2)
I/O
PCI
address/data line
65
AD(1)
I/O
PCI
address/data line
66
AD(0)
I/O
PCI
address/data line
67
GND
I
power
68
SR_A15
O
SRAM
Address line
69
SR_WE
O
SRAM
Write enable
70
SR_A13
O
SRAM
Address line
71
SR_A8
O
SRAM
Address line
72
SR_A9
O
SRAM
Address line
73
SR_A11
O
SRAM
Address line
74
SR_OE
O
SRAM
Output Enable control
75
SR_A10
O
SRAM
Address line
76
SR_CS
O
SRAM
Chip Select
77
SR_A16
O
SRAM
Address line
78
GND
I
power
79
SR_A14
O
SRAM
80
VCC
I
power
81
SR_A12
O
SRAM
Address line
82
SR_A7
O
SRAM
Address line
83
SR_A6
O
SRAM
Address line
84
SR_A5
O
SRAM
Address line
85
SR_A4
O
SRAM
Address line
86
SR_A3
O
SRAM
Address line
87
SR_A2
O
SRAM
Address line
88
SR_A1
O
SRAM
Address line
89
SR_A0
O
SRAM
Address line
90
SR_A18
O
SRAM
Address line
91
GND
I
power
5 of 17
Address line
March 26, 2001
IDT77252
92
SR_I/O(0)
I/O
SRAM
Data input/output line
93
SR_I/O(1)
I/O
SRAM
Data input/output line
94
SR_I/O(2)
I/O
SRAM
Data input/output line
95
SR_I/O(3)
I/O
SRAM
Data input/output line
96
SR_I/O(4)
I/O
SRAM
Data input/output line
97
SR_I/O(5)
I/O
SRAM
Data input/output line
98
GND
I
power
99
SR_I/O(6)
I/O
SRAM
Data input/output line
100
SR_I/O(7)
I/O
SRAM
Data input/output line
101
SR_I/O(8)
I/O
SRAM
Data input/output line
102
SR_I/O(9)
I/O
SRAM
Data input/output line
103
SR_I/O(10)
I/O
SRAM
Data input/output line
104
GND
I
power
105
VCC
I
power
106
SR_I/O(11)
I/O
SRAM
Data input/output line
107
SR_I/O(12)
I/O
SRAM
Data input/output line
108
SR_I/O(13)
I/O
SRAM
Data input/output line
109
SR_I/O(14)
I/O
SRAM
Data input/output line
110
SR_I/O(15)
I/O
SRAM
Data input/output line
111
SR_I/O(16)
I/O
SRAM
Data input/output line
112
GND
I
power
113
SR_I/O(17)
I/O
SRAM
Data input/output line
114
SR_I/O(18)
I/O
SRAM
Data input/output line
115
SR_I/O(19)
I/O
SRAM
Data input/output line
116
SR_I/O(20)
I/O
SRAM
Data input/output line
117
SR_I/O(21)
I/O
SRAM
Data input/output line
118
SR_I/O(22)
I/O
SRAM
Data input/output line
119
GND
I
power
120
SR_I/O(23)
I/O
SRAM
121
VCC
I
power
122
SR_I/O(24)
I/O
SRAM
Data input/output line
123
SR_I/O(25)
I/O
SRAM
Data input/output line
124
SR_I/O(26)
I/O
SRAM
Data input/output line
125
SR_I/O(27)
I/O
SRAM
Data input/output line
126
SR_I/O(28)
I/O
SRAM
Data input/output line
127
GND
I
power
128
SR_I/O(29)
I/O
SRAM
Data input/output line
129
SR_I/O(30)
I/O
SRAM
Data input/output line
130
SR_1/O(31)
I/O
SRAM
Data input/output line
6 of 17
Data input/output line
March 26, 2001
IDT77252
131
E_CE
O
EPROM
EPROM chip select
132
VCC
I
power
133
EECS
O
EEPROM
chip select
134
EESCLK
O
EEPROM
clock
135
EEDI
I
EEPROM
Data input
136
EEDO
O
EEPROM
Data output
137
GND
I
power
138
SAR_CLK
I
139
VCC
I
power
140
UTL_AD(0)
I/O
Utility
address/data bus
141
UTL_AD(1)
I/O
Utility
address/data bus
142
UTL_AD(2)
I/O
Utility
address/data bus
143
GND
I
power
144
UTL_AD(3)
I/O
Utility
145
VCC
I
power
146
UTL_AD(4)
I/O
Utility
address/data bus
147
UTL_AD(5)
I/O
Utility
address/data bus
148
UTL_AD(6)
I/O
Utility
address/data bus
149
UTL_AD(7)
I/O
Utility
address/data bus
150
GND
I
power
151
UTL_WR
O
Utility
write control
152
UTL_RD
O
Utility
read control
153
UTL_ALE
O
Utility
address latch enable
154
PHY_RST
O
PHY
rest control
155
PHY_INT
I
PHY
interrupt input from PHY
156
GND
I
power
157
VCC
I
power
158
UTL_CS(0)
O
Utility
chip select (0)
159
UTL_CS(1)
O
Utility
chip select (1)
160
TxData(0)
O
UTOPIA
transmit data bit 0
161
TxData(1)
O
UTOPIA
transmit data bit 1
162
TxData(2)
O
UTOPIA
transmit data bit 2
163
TxData(3)
O
UTOPIA
transmit data bit 3
164
GND
I
power
165
TxData(4)
O
UTOPIA
transmit data bit 4
166
TxData(5)
O
UTOPIA
transmit data bit 5
167
VCC
I
power
168
TxData(6)
O
UTOPIA
transmit data bit 6
169
TxData(7)
O
UTOPIA
transmit data bit 7
SAR clock input
7 of 17
address/data bus
March 26, 2001
IDT77252
170
GND
I
power
171
TxSOC
O
UTOPIA
transmit start of cell
172
TxEnb
O
UTOPIA
transmit enable control
173
TxFull/TxCLAV
I
UTOPIA
transmit buffer full
174
TxCLK
O
UTOPIA
transmit data sync clock
175
GND
I
power
176
RxData(0)
I
UTOPIA
receive data bit 0
177
RxData(1)
I
UTOPIA
receive data bit 1
178
RxData(2)
I
UTOPIA
receive data bit 2
179
RxData(3)
I
UTOPIA
receive data bit 3
180
GND
I
power
181
RxData(4)
I
UTOPIA
receive data bit 4
182
RxData(5)
I
UTOPIA
receive data bit 5
183
RxData(6)
I
UTOPIA
receive data bit 6
184
RxData(7)
I
UTOPIA
receive data bit 7
185
RxSOC
I
UTOPIA
receive start of cell
186
RxEnb
O
UTOPIA
receive enable control
187
RxEmpty/RxCLAV
I
UTOPIA
receive buffer empty
188
GND
I
power
189
RxClk
O
UTOPIA
receive data sync clock
190
PHY_Clk
I
UTOPIA
Transmit sync clock input
191
TxParity
O
UTOPIA
transmit data parity bit
192
GND
I
power
193
NAND_OUT
O
power
194
GND
I
power
195
ADD17_18_EN
I
power
196
VCC
I
power
197
VCC
I
power
198
CLK_OUT
O
power
199
GND
I
power
200
GND
I
power
201
NAND_EN
I
power
202
GND
I
power
203
RST
I
PCI
system bus reset
204
CLK
I
PCI
bus clock
205
GNT
I
PCI
bus grant signal from arbiter
206
REQ
O
PCI
bus request
207
VCC
I
power
208
GND
I
power
8 of 17
NAND output chain
enables or tristates SR_A17 and SR_A18
SAR_Clk divided by 3
NAND input chain
March 26, 2001
IDT77252
" #$ '
VCC
Supply Voltage
-0.3
6.5
V
VIN
Input Voltage
VSS - 0.3
VCC + 0.3
V
VOUT
Output Voltage
VSS - 0.3
VCC + 0.3
V
Tstg
Storage Temperature
-55
125
deg.C
%%
%%& ' % VCC
Supply Voltage
4.75
5.25
V
VI
Input Voltage
0
VCC
V
TA1
Commercial Operating temperature
0
70
deg.C
TA2
Industrial Operating temperature
-40
85
deg.C
titr
Input TTL rise time
—
2
ns
titf
Input TTL fall time
—
2
ns
SAR_CLK
SAR clock input freq.
PHY_CLK
PHY clock input freq.
PCI_CLK
' PCI clock input freq.
155Mb/s
77
80
MHz
25Mb/s
25
80
MHz
155Mb/s
19.44
40
MHz
25Mb/s
3
40
MHz
33MHz
0
33.3
MHz
CIN
Input Capacitance
except PCI Bus
—
—
4
pF
COUT
Output Capacitance
all outputs
—
—
6
pF
Cbid
Bi-Directional Capacitance
all bi-directional pins
—
—
10
pF
Cinpci
PCI Bus Input Capacitance
PCI Bus inputs
—
10
—
pF
Cclkpci
PCI Bus Clock Input Capacitance
—
5
12
—
pF
Cidsel
PCI Bus ID Select Input Capacitance
—
—
8
—
pF
'
'& ' % Vil
Low-level TTL input voltage
—
-0.7V
0.8
—
V
Vih
High-level TTL input voltage
—
2
VCC + 0.2V
—
V
Vol
Low-level TTL output voltage
except PCI Bus
—
0.4
—
V
Vol
PCI Bus Low-level TTL output voltage
PCI Bus voltage
—
0.55
—
V
Voh
High-level TTL output voltage
—
2.4
—
—
V
9 of 17
March 26, 2001
IDT77252
Iol
Low-level TTL output current:
SR_A(18-0)
VSS + 0.4V
12
—
—
mA
Ioh
High-level TTL output current:
SR_A(18-0)
2.4V
-4
—
—
mA
Iol
Low-level TTL output current:
RxEnb, RxClk, TxSOC, TxData (7-0), TxEnb, TxParity,
TxClk, WE#, OE#, CS#, SR_D31-0
VSS + 0.4V
6
—
—
mA
Ioh
High-level TTL output current:
RxEnb#, RxClk, TxSoc, TxData7-0, TxEnb#, TxParity,
TxClk, SR_WE, SR, OE, SR_CS, SR_I/O(31-0)
2.4V
-2
—
—
mA
Iol
Low-level TTL output current:
UTL_AD(7-0), UTL_RD, UTL_WR, UTL_ALE,
UTL_CS0/1, EESCLK, EECS, EEDO, PHY_RST
VSS + 0.4V
3
—
—
mA
Ioh
High-level TTL output current:
UTL_AD(7-0), UTL_RD, UTL_WR, UTL_ALE,
UTL_CS0/1, EESCLK, EECS, EEDO, PHY_RST
2.4V
-1
—
—
mA
Iil
Input leakage current
VSS ≤ VIN ≤ Vdd
-1
1
—
uA
Ityp
Dynamic Supply Current
—
—
300
250
mA
'& ' % Input Pulse Levels
0 to 3.0V
Input Rise/Fall Times
2ns
Input Timing Ref. Level
1.5V
Output Ref. Level
1.5V
AC Test Load
See Figure Below
Table 1 AC Test Conditions
6
5
1.5V
50Ω
I/O
Z0 = 50Ω
4
∆tCD 3
(Typical, ns)
2
1
20 30 50
80 100
Capacitance (pF)
200
4057 drw 05
(( )
The NAND Chain provides a simple test to verify that all bond wires are installed correctly and that all pads are correctly soldered on a PCB.
All signal pads are linked in a NAND chain, which is enabled by asserting a high, or “1”, on NAND_EN (pin 201). Asserting a “1” on the other inputs
forces NAND_OUT (pin 193) to “1”. By successively setting the inputs to “0”, starting at CLK_OUT (pin 198) and moving to TXPARITY (pin 191),
NAND_OUT will toggle with each change.
1. Apply a "1" to NAND_EN.
2. Set all the I/O's in the chain to "0" and NAND_OUT should be a "1".The connection order of the pins in the chain are shown in the NAND Tree
Pin Order table located on the following page.
3. Set CLK_OUT to a "0" and the NAND_OUT should be a "0".
4. Leaving pin 198 at a "1" set RST (pin 203) to "1" and NAND_OUT should be a "1".
5. Repeat for all remaining I/O's in the NAND chain.
10 of 17
March 26, 2001
IDT77252
! ! ! ! CLK_OUT
198
AD[12]
47
SR_I/O[06]
99
UTL_AD[5]
147
RST
203
AD[11]
48
SR_I/O[07]
100
UTL_AD[6]
148
CLK
204
AD[10]
49
SR_I/O[08]
101
UTL_AD[7]
149
GNT
205
AD[9]
50
SR_I/O[09]
102
UTL_WR
151
REQ
206
AD[8]
51
SR_I/O[10]
103
UTL_RD
152
AD[31]
2
C/BE[0]
55
SR_I/O[11]
106
UTL_ALE
153
AD[30]
3
AD[7]
56
SR_I/O[12]
107
PHY_RST
154
AD[29]
4
AD[6]
58
SR_I/O[13]
108
PHY_INT
155
AD[28]
5
AD[5]
59
SR_I/O[14]
109
UTL_CS[0]
158
AD[27]
6
AD[4]
60
SR_I/O[15]
110
UTL_CS[1]
159
AD[26]
7
AD[3]
63
SR_I/O[16]
111
TxData[0]
160
AD[25]
10
AD[2]
64
SR_I/O[17]
113
TxData[1]
161
AD[24]
11
AD[1]
65
SR_I/O[18]
114
TxData[2]
162
C/BE[3]
12
AD[0]
66
SR_I/O[19]
115
TxData[3]
163
IDSEL
13
SR_WE
69
SR_I/O[20]
116
TxData[4]
165
AD[23]
14
SR_A[13]
70
SR_I/O[21]
117
TxData[5]
166
AD[22]
15
SR_A[8]
71
SR_I/O[22]
118
TxData[6]
168
AD[21]
18
SR_A[9]
72
SR_I/O[23]
120
TxData[7]
169
AD[20]
20
SR_A[11]
73
SR_I/O[24]
122
TxSOC
171
AD[19]
21
SR_OE
74
SR_I/O[25]
123
TxEnb
172
AD[18]
22
SR_A[10]
75
SR_I/O[26]
124
TxCLAV
173
AD[17]
23
SR_CS
76
SR_I/O[27]
125
TxCLK
174
AD[16]
24
SR_A[12]
81
SR_I/O[28]
126
RxData[0]
176
C/BE[2]
27
SR_A[7]
82
SR_I/O[29]
128
RxData[1]
177
Frame
29
SR_A[6]
83
SR_I/O[30]
129
RxData[2]
178
IRDY
30
SR_A[5]
84
SR_I/O[31]
130
RxData[3]
179
TRDY
31
SR_A[4]
85
E_CE
131
RxData[4]
181
DEVSEL
32
SR_A[3]
86
EECS
133
RxData[5]
182
STOP
33
SR_A[2]
87
EESCLK
134
RxData[6]
183
INITA
36
SR_A[1]
88
EEDI
135
RxData[7]
184
PERR
38
SR_A[0]
89
EEDO
136
RxSOC
185
SERR
39
SR_I/O[00]
92
SAR_CLK
138
RxEnb
186
PAR
40
SR_I/O[01]
93
UTL_AD[0]
140
RxCLAV
187
C/BE[1]
41
SR_I/O[02]
94
UTL_AD[1]
141
RxCLK
189
AD[15]
42
SR_I/O[03]
95
UTL_AD[2]
142
PHY_CLK
190
AD[14]
45
SR_I/O[04]
96
UTL_AD[3]
144
TxParity
191
AD[13]
46
SR_I/O[05]
97
UTL_AD[4]
146
Table 2 NAND Tree Pin Order
11 of 17
March 26, 2001
IDT77252
'*+
,%
%
tval
CLK to Output Signal Valid Delay: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR, SERR
2
11
ns
tval(ptp)
CLK to Output Signal Valid Delay: REQ
2
12
ns
ton
Float to Signal Active Delay: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR, SERR
2
—
ns
toff
Signal Active to Float Delay: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR, SERR
—
28
ns
tsu
Input Setup Time to CLK: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR
7
—
ns
tsu(ptp)
Input Setup Time to CLK: GNT, (REQ)
10(12)
—
ns
th
Input Hold Time from CLK: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR, GNT
21
—
ns
trst-pwr
Reset Active Time After Power Stable
1
—
ns
trst-clk
Reset Active Time After CLK Stable
100
—
ns
trst-off
Reset Active to Output Float Delay: AD31-0, C/BE3-0, PAR, FRAME, IRDY, DEVSEL, TRDY, STOP, PERR, SERR —
40
ns
thigh
Clock high time
11n
—
ns
tlow
Clock low time
11n
—
ns
1.
Does not meet PCI Local Bus revision 2.1 timing specification
.)& *+
/
t1
TxClk, RxClk Delay from PHY_CLK
—
5
ns
t2
TxData(7-0), TxSOC, TxEnb, TxParity Output Valid from TxClk
1
15
ns
t3
TxFull/TxCLAV Setup Time to TxClk
10
—
ns
t4
TxFull/TxCLAV Hold Time from TxClk
31
—
ns
t5
RxEnb Output Valid from RxClk
1
15
ns
t6
RxData(7-0), RxSOC Setup Time to RxClk
10
—
ns
t7
RxData(7-0), RxSOC Hold Time from RxClk
21
—
ns
t8
RxEmpty/RxCLAV Setup Time to RxClk
10
—
ns
RxEmpty/RxCLAV Hold Time from TxClk
21
—
ns
t9
1.
Does not meet UTOPIA 1 timing specification (Af-phy-0017.00)
. 0 ' +
1
tw1
UTL_ALE Pulse Width
25
—
ns
tw2
UTL_CS0/1 Output Valid to UTL_ALE falling edge
25
—
ns
tw3
UTL_WR Output Valid from UTL_ALE falling edge
—
80
ns
tw4
UTL_CS0/1 Pulse Width
275
—
ns
tw5
UTL_WR Pulse Width
175
—
ns
tw6
UTL_ALE falling edge to UTL_WR rising edge
225
—
ns
tw7
UTL_AD(7-0) Address Setup Time to UTL_ALE falling edge
30
—
ns
tw8
UTL_AD(7-0) Address Hold Time from UTL_ALE falling edge
10
—
ns
tw9
UTL_AD(7-0) Data Setup Time to UTL_WR rising edge
185
—
ns
tw10
UTL_AD(7-0) Data Hold Time from UTL_WR rising edge
10
—
ns
tw11
UTL_ALE falling edge to UTL_CS0/1 rising edge
250
—
ns
12 of 17
March 26, 2001
IDT77252
. %' +
tr1
UTL_ALE Pulse Width
25
—
ns
tr2
UTL_CS0/1 Output Valid to UTL_ALE falling edge
25
—
ns
tr3
UTL_RD Output Valid from UTL_ALE falling edge
—
80
ns
tr4
UTL_CS0/1 Pulse Width
250
—
ns
tr5
UTL_RD Pulse Width
185
—
ns
tr6
UTL_ALE falling edge to UTL_RD rising edge
250
—
ns
tr7
UTL_AD(7-0) Address Setup Time to UTL_ALE falling edge
30
—
ns
tr8
UTL_AD(7-0) Address Hold Time from UTL_ALE falling edge
10
—
ns
tr9
UTL_AD(7-0) Data Setup Time to UTL_CS0/1 rising edge
80
—
ns
tr10
UTL_AD(7-0) Data Hold Time from UTL_CS0/1 rising edge
10
—
ns
tr11
UTL_ALE falling edge to UTL_CS0/1 rising edge
225
—
ns
#
#0 ' +
2
t1
SR_A(18-0) Setup Time to SR_WE falling edge
2
—
ns
t2
SR_CS falling edge to SR_WE falling edge
0
—
ns
t3
SR_CS pulse width
25
—
ns
t4
SR_I/O(31-0) Setup Time to SR_WE rising edge
6
—
ns
t5
SR_I/O(31-0) Hold Time from SR_WE rising edge
0
—
ns
t6
SR_WE Pulse Width
10
—
ns
#
#%
%
%' +
t1
SR_A(18-0) to SR_I/O(31-0) Valid1
—
15
ns
t2
SR_OE pulse width
25
—
ns
1.
SR_I/O (31-0) Setup and Hold times are guaranteed by design when t1 access time is met.
3 &#+
4
t1
SR_I/O(7-0) Hold Time from E_CE rising edge
0
—
ns
t2
E_CE Pulse Width
75
—
ns
t3
SR_A(18-0) Change to SR_I/O(7-0) Valid
—
70
ns
t4
SR_A(18-0) Pulse Width
75
—
ns
3 &#+
5
t1
SAR_CLK to Output Signal Valid Delay: EECS, EEDO, EECLK 100
—
ns
software controlled
t2
EEDI Input Setup Time to SAR_CLK
10
—
ns
software controlled
t3
EEDI Input Hold Time from SAR_CLK
0
—
ns
software controlled
13 of 17
March 26, 2001
IDT77252
ton
tcyc
tlow thigh
tval
tval (ptp)
toff
PCI_CLK(I)
AD31-0(O)
Add
C/BE3-0 (O)
Cmd
Data0
Data2
Data1
Data3
BE3-0
tval
toff
FRAME(O)
ton
tval
IRDY (O)
tval
tsu
tsu
DEVSEL(I)
toff
th
tsu
TRDY(I)
REQ (O)
ParA
PAR(O)
tval(ptp)
tval
ton
ParD0
ParD1
ParD2
toff
ParD3
tsu(ptp)
GNT(I)
th
4057 drw 06
Figure 1 The ABR SAR as a PCI Master (illustrates a 4-word write by the ABR SAR to host memory)
tsu
th
(1)
PCI_CLK
AD31-0(1)
Add
C/BE3-0(1)
Cmd
Data2
Data3
BE3-0
tsu
ParA
PAR(1)
Data1
Data0
ParD0
ParD1
ParD2
ParD3
th
FRAME(1)
th
tsu
IRDY (1)
toff
th
DEVSEL(1)
toff
tval,
ton
TRDY(O)
toff
tval,
ton
PERR(O)
SERR(O)
tval,
ton
REQ(1)
tsu
(O)
REQ
4057 drw 07
tval
Figure 2 The ABR SAR as a PCI Target (illustrates a 4-word write operation by the host device driver to the ABR SAR)
14 of 17
March 26, 2001
IDT77252
t1
(I)
PHY_Clk
t3
t7
t5
t2
t6
t8
t9
t4
(O)
TxClk,RxClk
(O)
TxData 7-0
TxSOC
TxEnb
(O)
(O)
(O)
TxParity
Txfull/ (I)
TxCLAV
(O)
RxEnb
(I)
RxData 7-0
RxSOC
(I)
RxEmpty/
RxCLAV
(I)
5349 drw 08
Figure 3 UTOPIA Bus Timing
tw1
tw7
tw2
tw11
tw6
tw8
tw3
UTL_ALE(O)
tw4
UTL_CS0/1(O)
tw5
tw10
tw9
UTL_WR(O)
UTL_AD(7-0)(I/O)
(O)
Address (O)
Valid Data
4057 drw 09
Figure 4 Utility Bus Write Cycle
tr6
tr1
tr7
tr2
tr11
tr8
tr3
UTL_ALE
tr4
UTL_CS0/1
tr5
tr10
tr9
UTL_RD
UTL_AD7-0
Address (O)
(I)
Valid Data
4057 drw 10
Figure 5 Utility Bus Read Cycle
15 of 17
March 26, 2001
IDT77252
t1
SR_A(18-0)
t3
t2
SR_CS
t6
t4
t5
SR_WE
SR_I/O(31-0)
5349 drw 11
Figure 6 SRAM Bus Write Cycle Timing
t1
SR_A(18-0)
SR_CS
t2
SR_OE
SR_I/O(31-0)
5349 drw 12
Figure 7 SRAM Bus Read Cycle Timing
t3
t4
SR-A (18-0)
t1
t2
E_CE
Valid Data
SR_I/O(7-0)
4057 drw 13
Figure 8 EPROM Timing
t1
SAR_CLK
EECS
EECLK
t3
EEDO
t2
EEDI
5349 drw 14
Figure 9 EEPROM Timing
!
%
% !
Several software vendors have written IDT77252 software drivers for various operating systems. Please contact your local IDT sales representative for a vendor list, or e-mail [email protected].
IDT offers the Sarwin2 demo driver and application suite, which can be used to evaluate the IDT77252 when used with a IDT NIC reference or
evaluation adapter. It may also be used as a reference for sample source code when developing a proprietary device driver. Please contact your IDT
sales representative or e-mail [email protected] to obtain a free CD-ROM.
16 of 17
March 26, 2001
IDT77252
(*'
%
%3 % NIC Reference and Evaluation adapters are available in several form factors. Bill of Materials (BOM) and schematics are available upon request
for each of the NIC adapters. A list of current NIC adapter offerings can be found at www.idt.com.
Note: ABR SAR User Manual provides a detailed description of the 77252 operation and registers.
&%
% * IDT
NNNNN
Device Type
A
Power
NNN
Speed
A
Package
PG
PGI
DUI
Commerical 208-pin Plastic Quad Flatpack
Revisions A, B, C, D, E, and F
Industrial 208-pin Plastic Quad Flatpack
Revisions A, B, C, D, and E
Industrial 208-pin Plastic Quad Flatpack
Revision F
155
Speed in Mps
L
Low Power CMOS
77252
155Mbs ATM Segmentation &
Reassembly (SAR) Controller for the
PCI Local Bus
4057 drw 15
Note: Refer to Errata list for revision history and how to identify revision.
Refer to PSC-4053 for detailed package drawing.
,
,,! The 77252 PG package is the same package as the 77211 PQF. The 77252 is a direct replacement to the 77211 SAR. To use the 77252 in a 155
Mbps application, a 80 MHz oscillator is required (replace the 50 MHz oscillator used with the 77211).
6 12/01/97:
Created new document.
01/27/98:
Corrected designation of pins 58, 75, and 90 plus made miscellaneous edits.
05/01/98:
Changed package designation from PQF to PG. Added AC operating conditions. Edited timing diagrams.
08/11/98:
Corrected descriptions for the following pins (pin 62, 90, 193). Edited package pin out diagram (pin 195).
07/07/99:
Added Industrial Temp range.
09/15/99:
Updated software section.
05/02/99:
Added DUI package information, updated SRAM timing diagrams, updated Utility Bus timing diagrams, updated PCI timing parameters, updated
UTOPIA bus timing parameters, updated AC Test Conditions section, updated EEPROM timing diagrams, added NAND Tree description and pin
order, updated software section, and added NIC section.
06/22/00:
Corrected Utility Bus Write, Utility Bus Read, and SRAM Write timing tables. Corrected NAND Tree pin order.
03/26/01:
Changed from Preliminary to Final data sheet. Added to and rearranged the Features list.
CORPORATE HEADQUARTERS
2975 Stender Way
Santa Clara, CA 95054
for SALES:
800-345-7015 or 408-727-6116
fax: 408-330-1748
www.idt.com
for Tech Support:
email:[email protected]
phone: 408-492-8208
The IDT logo is a registered trademark of Integrated Device Technology, Inc.
17 of 17
March 26, 2001
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