ETC IP178CH

IP178C
Preliminary Data Sheet
8 Port 10/100 Ethernet Integrated Switch
Features
Support 1k MAC address
Support auto-polarity for 10 Mbps
Support filter/ forward special DA option
Support broadcast storm protection
Auto MDI-MDIX option
Support port security option to lock the first
MAC address
Support one MII/RMII port, which works at 100
Mbps full duplex for router application
Support port base VLAN & tag VLAN
Support CoS
Support SMART MAC function
Support spanning tree protocol
Support max forwarding packet length 1552/
1536 bytes option
Support 8-level bandwidth control
Support SCA
Built in linear regulator control circuit
Support Lead Free package (Please refer to
the Order Information)
Note – some features need CPU support, please
refer to the detail description inside this data sheet
General Description
IP178C integrates a 9-port switch controller,
SSRAM, and 8 10/100 Ethernet transceivers.
Each of the transceivers complies with the
IEEE802.3,
IEEE802.3u,
and
IEEE802.3x
specifications. The transceivers are designed in
DSP approach in 0.18um technology; they have
high noise immunity and robust performance.
IP178C operates in store and forward mode. It
supports flow control, auto MDI/MDI-X, CoS, port
base VLAN, bandwidth control, DiffServ, SMART
MAC and LED functions, etc. Each port can be
configured as auto-negotiation or forced 10
Mbps/100 Mbps, full/half duplexmode. Using an
EEPROM or pull up/down resistors on specific
pins can configure the desired options.
Besides an 8-port switch application, IP178C
supports one MII/RMII ports for router application,
which supports 7 LAN ports and one WAN port.
The external MAC can monitor or configure
IP178C by accessing MII registers through SMI.
MII/RMII port also can be configured to be MAC
mode. It is used to interface an external PHY to
work as an 8+1 switch.
1/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Table Of Contents
Features ...................................................................................................................................................1
General Description..................................................................................................................................1
Table Of Contents.....................................................................................................................................2
Revision History........................................................................................................................................3
Pin diagram (IP178C) ...............................................................................................................................9
1 Pin description.................................................................................................................................14
Pin description (continued).....................................................................................................................15
Pin description (continued).....................................................................................................................17
Pin description (continued).....................................................................................................................18
Pin description (continued).....................................................................................................................19
Pin description (continued).....................................................................................................................20
Pin description (continued).....................................................................................................................21
Pin description (continued).....................................................................................................................22
Pin description (continued).....................................................................................................................23
Pin description (continued).....................................................................................................................24
Pin description (continued).....................................................................................................................25
Pin description (continued).....................................................................................................................26
2 Functional Description.....................................................................................................................27
2.1
Flow control.........................................................................................................................30
2.2
Broadcast storm protection.................................................................................................31
2.3
Port locking .........................................................................................................................32
2.4
Port base VLAN ..................................................................................................................33
2.5
Tag VLAN/ Tag and un-tag function ....................................................................................34
2.6
Tag VLAN............................................................................................................................34
2.7
Tag VLAN in router application ...........................................................................................35
2.8
Smart MAC .........................................................................................................................36
2.9
CoS .....................................................................................................................................40
2.9.1
Port base priority....................................................................................................40
2.9.2
Frame base priority ................................................................................................40
2.10 Spanning tree......................................................................................................................42
2.11
Static MAC address table....................................................................................................44
2.12 Serial management interface..............................................................................................45
2.13 SCA.....................................................................................................................................46
2.14 Bandwidth control ...............................................................................................................46
2.15 Register descriptions ..........................................................................................................47
3 Electrical Characteristics.................................................................................................................84
3.1
Absolute Maximum Rating ..................................................................................................84
3.2
DC Characteristic................................................................................................................84
3.3
AC Timing ...........................................................................................................................85
3.3.1
PHY Mode MII Timing ............................................................................................85
3.3.2
MAC Mode MII Timing ...........................................................................................86
3.3.3
RMII Timing............................................................................................................87
3.3.4
SMI Timing .............................................................................................................88
3.3.5
EEPROM Timing....................................................................................................89
3.4
Thermal Data ......................................................................................................................89
4 Order information ............................................................................................................................90
5 Package Detail ................................................................................................................................91
2/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Revision History
Revision #
IP178C-DS-R01
IP178C-DS-R02
IP178C-DS-R03
IP178C-DS-R04
IP178C-DS-R05
IP178C-DS-R06
IP178C-DS-R07
IP178C-DS-R08
Change Description
Initial release.
1. Modify Pin diagram in page 9, pin_89 from HASH_MODE[1]/LINK_LED7 to
MLT3_DET/LINK_LED7,pin 84 from LOW_10M_DIS to SCA_DIS, pin_36 from
SCA to NC, VCTRL to REG_OUT
2. Replace VCTRL with REG_OUT
3. Modify HASH_MODE [1] to MLT3_DET in page 17, 54 & 55
4. Modify pin 84 from LOW_10M_DIS to SCA_DIS, pin_36 from SCA to NC
5. Change BF_STM_THR_SEL [1:0] from 01: 128 frames to 126 frames in page 74
6. Modify EXT MII Pin description in page 21, 22, 23
7. "100M" change to "100 Mbps" and "10M" change to "10 Mbps".
8. Modify PHY mode for only support one MIICLK on page 25
9. Add in Thermal Data on page 85
10. Add in power consumption on page 80
11. P.54 PHY30.1[12] Default value=0, P.56 PHY30.2[7] Default value=0, P.56
PHY30.2[0] 為 FORCE_MODE -> BI_COLOR
12. 1.8V change 1.95V
1. Modify FILTER_DA, 01-80-c2-00-00-00 to 01-80-c2-00-00-02 on page 19
2. Modify VLAN_ON function when Pin 53EXTMII_EN=1 on page 18
3. Modify long packet enable function description on page 55
4. Modify Backpressure type selection on page 54
5. Modify RESETB CKT on page 14
6. Modify HASH_MODE [0] to LDPS_DIS on page 17, 54
7. Modify Pin type description on page 13
8. Modify Pin 84 from SCA_DIS to LOW_10M_DIS or SCA_DIS on page 14
9. Modify Pin 73 from LINK_Q to SEL_SCA on page 18
10. Modify Pin diagram on page 9, pin_87 from HASH_MODE [0] to LDPS_DIS,pin
84 from SCA_DIS to LOW_10M_DIS or SCA_DIS, pin_73 from LINK_Q to
SEL_SCA
1. Modify broadcast storm protection function on page 18, page 30, page 75
2. Add BW control value setting on page 81
3. Add BW control description on page 45
4. Rearrange Index
5. Add special_add_forward description on page 81
6. Add “The function is valid only if pin 53 EXTMII_EN is pulled low.” To pin 75, 76,
77, 78, 85, 86, 87
7. Add Note on page 1 for CPU support
1. Add the order information for lead free package
1. Add IP178C.RX_DV connect to MAC.RX_DV and MAC.CRS on page 27
1. All ports unlink on page 84 for VCC
2. Modify VCC min form 1.85V to 1.80V on page 84
3. Modify regulator description on page 1 & 13
1.
2.
3.
IP178C-DS-R08.1 1.
2.
3.
Revise the pin description.
Modify Pin diagram of pin 85, 86, 96 and 97.
Modify application diagram on page 10.
Add FXSD7 on page 26 FXSD6 on page 15
Add fiber application for order information on page 90
Add IP178CH Pin diagram on page 10
3/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
The difference in pin definition between IP178B and IP178C (MII port disabled: EXTMII_EN=0)
Pin
IP178B
IP178C
36
Function
NC
Configure
I
NC
Type
IPL
52
REG_OUT
I
REG_OUT
O
53
OSCGND
--
56
72
OSCVCC
SPEED_LED1
-IPL
DIRECT_LED
Type
Function
Configure
EXTMII_EN=0
RXCLK
SPEED_LED1
IPL
IPH
IPL
73
SPEED_LED0
SPEED_LED0
SEL_SCA
IPL
75
FDX_LED7
FDX_LED7
X_EN
IPH
76
FDX_LED6
FDX_LED6
AGING
IPH
77
78
FDX_LED5
FDX_LED4
FDX_LED5
FDX_LED4
BCSTF
FILTER_DA
IPL
IPL
79
FDX_LED3
FDX_LED3
VLAN_ON
IPL
VLAN_ON
IPL
80
LED_SEL [1]
IPH
LED_SEL [1]
IPH
81
LED_SEL [0]
IPH
LED_SEL [0]
IPH
84
AGING
IPH
LOW_10M_DIS/
SCA_DIS
IPH
85
FDX_LED2
OP1 [1]
IPL
FDX_LED2
OP1 [1]
IPL
86
FDX_LED1
OP1 [0]
IPL
FDX_LED1
OP1 [0]
IPL
87
FDX_LED0
HASH_MODE [0]
IPL
FDX_LED0
LDPS_DIS
IPL
MID_MDIX_EN
FORCE_MODE
IPL
IPL
MID_MDIX_EN
BI_COLOR
IPH
IPL
90
95
96
LINK_LED3
OP0 [0]
IPL
LINK_LED3
OP0 [0]
IPL
97
LINK_LED2
OP0 [1]
IPL
LINK_LED2
OP0 [1]
IPL
UPDATE_R4_EN
LONG_PKT_DIS
101
IPH
TXCLK
102
EEDI
IPL
MDIO
IPH
103
104
EEDO
EECS
IPL
IPL
MDC
SCL
IPL
IPL
105
EESK
IPL
SDA
IPH
4/91
Copyright © 2004, IC Plus Corp.
IPH
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
The difference in pin definition between IP178B and IP178C (MII port enabled: EXTMII_EN=1)
Pin
IP178B
IP178C
36
Function
NC
Configure
I
NC
Type
IPL
52
REG_OUT
I
REG_OUT
O
53
OSCGND
--
56
72
OSCVCC
SPEED_LED1
-IPL
DIRECT_LED
Type
Function
Configure
EXTMII_EN=1
IPL
RMII_CLK_IN
SPEED_LED1
RMII_ MII
IPH
IPL
73
SPEED_LED0
SPEED_LED0
SEL_SCA
IPL
75
FDX_LED7
RXDV
X_EN
IPH
76
FDX_LED6
RMII_CLK_OUT
AGING
IPH
77
78
FDX_LED5
FDX_LED4
RXD2
RXD1
BCSTF
FILTER_DA
IPL
IPL
79
FDX_LED3
VLAN_ON
IPL
RXD0
VLAN_ON
IPL
80
LED_SEL [1]
IPH
TXEN
LED_SEL [1]
IPH
81
LED_SEL [0]
IPH
TXD3
LED_SEL [0]
IPH
84
AGING
IPH
LOW_10M_DIS/
SCA_DIS
IPH
85
FDX_LED2
OP1 [1]
IPL
TXD2
OP1 [1]
IPL
86
FDX_LED1
OP1 [0]
IPL
TXD1
OP1 [0]
IPL
87
FDX_LED0
HASH_MODE [0]
IPL
TXD0
LDPS_DIS
IPL
MID_MDIX_EN
FORCE_MODE
IPL
IPL
MID_MDIX_EN
BI_COLOR
IPH
IPL
90
95
96
LINK_LED3
OP0 [0]
IPL
LINK_LED3
OP0 [0]
IPL
97
LINK_LED2
OP0 [1]
IPL
LINK_LED2
OP0 [1]
IPL
UPDATE_R4_EN
LONG_PKT_DIS
IPH
101
IPH
TXCLK
102
EEDI
IPL
MDIO
IPH
103
104
EEDO
EECS
IPL
IPL
MDC
SCL
IPL
IPL
105
EESK
IPL
SDA
5/91
Copyright © 2004, IC Plus Corp.
MII_MAC
IPH
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Features comparison between IP178B and IP178C
Function
IP178B
93C46
IP178C
24C01A
SCA (Smart Cable Analysis)
X
O
UPDATE_R4_EN
O
X
8 TP
8 TP + 1* MII (9 port switch)
EEPROM
8 TP + 1* MII (9 port switch)
LED pins
Link quality LED
VLAN_ON
Filter reserved address option
Broadcast frame option
Disable MII port
(pin 53 EXTMII_EN=0)
Enable MII port
(pin 53 EXTMII_EN=1)
Link, Speed,
Duplex
Link, Speed, Duplex
Link, Speed
X
Pin 79
Pin 73
Pin 79
Default on (note1)
Default off (note1)
Fixed on
Pin 78
Default off (note1)
X
Pin 77
Default off (note1)
Pin 84
Pin 76
Default on (note1)
Fixed on
X
Pin 75
Pin 101
Default on (note1)
Default off (note1)
MII port speed/ duplex
X
X
Fixed 100 Mbps full
RMII/MII option
X
X
Pin 72
MII MAC mode/ PHY mode
X
X
Pin 104
MII register, MDC/MDIO
Built in regulator
X
X
X
2.5v Æ 1.95V
O
3.3V Æ 1.95V
Aging option
Flow control option
Max packet length option
Note1: The default value can be updated by EEPORM or MDC/MDIO.
Note2: It is UPDATE_R4_EN in IP178B.
6/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
The differences in application circuit between IP178B and IP178C
178B
178C
A. Dumb switch
A. Dumb switch (EXTMII_EN=0, BI_COLOR=0)
34063
2.3v
34063
2.5v
VCC_O
REGOUT
2.5v
VCC_O
2.3v
REGOUT
PNP
RESETB
1.8v
AVCC=DVCC
RESETB
AVCC=DVCC
R
178B
R
LED
178C
LED
Note: R is a pull up resistor for configuration. It
should be connected to VCC_O.
B. Dumb switch (EXTMII_EN=0, BI_COLOR=1)
34063
2.5v
2.5v
VCC_O
REGOUT
PNP
RESETB
1.8v
AVCC=DVCC
NA
LED
178C
R
LED
Note: R is a pull up resistor for configuration. It
should be connected to VCC_O.
7/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
The differences in application circuit between IP178B and IP178C (continued)
178B
178C
C. Router (EXTMII_EN=1, BI_COLOR=0)
3.3v
3.3v
VCC_O
NA
REGOUT
RESETB
AVCC=DVCC
PNP
1.8v
R
178C
LED
Note: R is a pull up resistor for configuration. It
should be connected to VCC_O.
D. Router (EXTMII_EN=1, BI_COLOR=1)
3.3v
3.3v
VCC_O
REGOUT
NA
RESETB
AVCC=DVCC
LED
178C
PNP
1.8v
R
LED
Note: R is a pull up resistor for configuration. It
should be connected to VCC_O.
8/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
RXVCC1
RXIP1
RXIM1
RXGND1
TXGND1
TXOP1
TXOM1
TXVCC01
TXOM0
TXOP0
TXGND0
RXGND0
RXIM0
RXIP0
RXVCC0
GND
GND
GND
GND
VCC
VCC
VCC
VCC
SDA
SCL / MII_MAC
MDC
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
Pin diagram (IP178C)
RXVCC2
1
102
MDIO
RXIP2
2
101
TXCLK / LONG_PKT_DIS
RXIM2
3
100
P6_7_HIGH / LINK_LED0
RXGND2
4
99
COS_EN / LINK_LED1
TXGND2
5
98
VCC_SRAM
TXOP2
6
97
LINK_LED2
TXOM2
7
96
LINK_LED3
TXVCC23
8
95
BI_COLOR
TXOM3
9
94
GND_SRAM
TXOP3
10
93
MODBCK / LINK_LED4
TXGND3
11
92
VCC_O
RXGND3
12
91
BF_STM_EN / LINK_LED5
RXIM3
13
90
MDI_MDIX_EN / LINK_LED6
RXIP3
14
89
MLT3_DET / LINK_LED7
RXVCC3
15
88
GND_O
BGVCC
16
87
TXD0 / LDPS_DIS / FDX_LED0
BGRES
17
86
TXD1 / FDX_LED1
BGGND
18
85
TXD2 / FDX_LED2
PLLGND
19
84
LOW_10M_DIS or SCA_DIS
PLLVCC
20
83
VCC_O
RXVCC4
21
82
GND_O
RXIP4
22
81
TXD3 / LED_SEL[0]
RXIM4
23
80
TXEN / LED_SEL[1]
RXGND4
24
79
RXD0 / VLAN_ON / FDX_LED3
TXGND4
25
78
RXD1/ FILTER_DA/ FDX_LED4
TXOP4
26
77
RXD2/ BCSTF / FDX_LED5
TXOM4
27
76
RXD3/ RMII_CLK_OUT / AGING / FDX_LED6
TXVCC45
28
75
RXDV / X_EN / FDX_LED7
TXOM5
29
74
VCC_SRAM
TXOP5
30
73
SEL_SCA / SPEED_LED0
TXGND5
31
72
RMII_MII / SPEED_LED1
RXGND5
32
71
SPEED_LED2
RXIM5
33
70
SPEED_LED3
RXIP5
34
69
SPEED_LED4
RXVCC5
35
68
SPEED_LED5
NC
36
67
SPEED_LED6
RXVCC6
37
66
SPEED_LED7
RXIP6
38
65
GND_SRAM
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
64
RXIM6
RXGND6
TXGND6
TXOP6
TXOM6
TXVCC67
TXOM7
TXOP7
TXGND7
RXGND7
RXIM7
RXIP7
RXVCC7
REG_OUT
EXTMII_EN
OSCI
X2
RXCLK / RMII_CLK_IN
GND
GND
GND
GND
VCC
VCC
VCC
RESETB
IP178C
9/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
RXVCC1
RXIP1
RXIM1
RXGND1
TXGND1
TXOP1
TXOM1
TXVCC01
TXOM0
TXOP0
TXGND0
RXGND0
RXIM0
RXIP0
RXVCC0
GND
GND
GND
GND
VCC
VCC
VCC
VCC
SDA
SCL / MII_MAC
MDC
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
Pin diagram (IP178CH)
RXVCC2
1
102
MDIO
RXIP2
2
101
TXCLK / LONG_PKT_DIS
RXIM2
3
100
P6_7_HIGH / LINK_LED0
RXGND2
4
99
COS_EN / LINK_LED1
TXGND2
5
98
VCC_SRAM
TXOP2
6
97
LINK_LED2
TXOM2
7
96
LINK_LED3
TXVCC23
8
95
BI_COLOR
TXOM3
9
94
GND_SRAM
TXOP3
10
93
MODBCK / LINK_LED4
TXGND3
11
92
VCC_O
RXGND3
12
91
BF_STM_EN / LINK_LED5
RXIM3
13
90
MDI_MDIX_EN / LINK_LED6
RXIP3
14
89
MLT3_DET / LINK_LED7
RXVCC3
15
88
GND_O
BGVCC
16
87
TXD0 / LDPS_DIS / FDX_LED0
BGRES
17
86
TXD1 / FDX_LED1
BGGND
18
85
TXD2 / FDX_LED2
PLLGND
19
84
LOW_10M_DIS or SCA_DIS
PLLVCC
20
83
VCC_O
RXVCC4
21
82
GND_O
RXIP4
22
81
TXD3 / LED_SEL[0]
RXIM4
23
80
TXEN / LED_SEL[1]
RXGND4
24
79
RXD0 / VLAN_ON / FDX_LED3
TXGND4
25
78
RXD1/ FILTER_DA/ FDX_LED4
TXOP4
26
77
RXD2/ BCSTF / FDX_LED5
TXOM4
27
76
RXD3/ RMII_CLK_OUT / AGING / FDX_LED6
TXVCC45
28
75
RXDV / X_EN / FDX_LED7
TXOM5
29
74
VCC_SRAM
TXOP5
30
73
SEL_SCA / SPEED_LED0
TXGND5
31
72
RMII_MII / SPEED_LED1
RXGND5
32
71
SPEED_LED2
RXIM5
33
70
SPEED_LED3
RXIP5
34
69
SPEED_LED4
RXVCC5
35
68
SPEED_LED5
FXSD6
36
67
SPEED_LED6
RXVCC6
37
66
SPEED_LED7
RXIP6
38
65
GND_SRAM
64
RESETB
55
X2
63
54
OSCI
VCC
53
EXTMII_EN
62
52
REG_OUT
VCC
51
RXVCC7
61
50
RXIP7
VCC
49
RXIM7
60
48
RXGND7
GND
47
TXGND7
59
46
TXOP7
GND
45
TXOM7
58
44
TXVCC67
GND
43
TXOM6
57
42
TXOP6
FXSD7
41
TXGND6
56
40
RXCLK / RMII_CLK_IN
39
RXIM6
RXGND6
IP178CH
10/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
An 8-port switch
4
4
4
4
Xfm
Xfm
Xfm
Xfm
24 C 01
IP178C
OSC
IP178C
OSC
A 9-port switch
M II /
R M II
PHY
IP 1 7 8 C
OSC
4
4
X fm
X fm
An 8-port router
IP 1 7 8 C
OSC
4
X fm
UP
M II/
RM I
I
4
X fm
11/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
IP178C applications: (continued)
An 8-port switch application
If pin 53 EXTMII_EN is pulled low, then MII/ RMII interface is disabled. IP178C is not connected to a CPU
and works as an 8-port switch. The ninth switch port MAC8 is unused in this application.
IP178C
PHY
0
switch engine
MAC8
MAC0 ..... MAC7
PHY
1
PHY
2
(MAC8 is unused)
PHY
3
PHY
7
TP
A 9-port switch application
If pin 53 EXTMII_EN is pulled high, then MII/ RMII interface is enaled. The ninth switch port MAC8 is
connected to a PHY through the MII/RMII interface. IP178C works as a 9-port switch. Because IP178C
doesn’t access the MII register of the external PHY through SMI, MII/RMII interface should be MAC
mode and full duplex in this application.
IP178C
switch engine
MAC8
MII/RMII
MAC0 ..... MAC7
PHY
0
PHY
1
.....
(MAC mode)
PHY
6
PHY
7
12/91
Copyright © 2004, IC Plus Corp.
external
PHY
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
IP178C applications: (continued)
An 8-port router application
IF pin 53 EXTMII_EN is pulled high, then MII/RMII interface is enabled. IP178C is connected to a CPU
through MII/ RMII interface. IP178C works as an 8-port router. MII/RMII interface is set to be PHY mode
and 100 Mbps full duplex in this application.
Router
IP178C
switch engine
MII/RMII
MAC8
(PHY mode)
MAC0 ..... MAC7
MAC
CPU
PHY
0
PHY
1
.....
LAN port
PHY
6
PHY
7
WAN
Ethernet
port
ADSL
or
Cable modem
WAN to ISP
Ethernet
PC
13/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
1
Pin description
Type
I
O
IPL
IPH
Input pin
Description
Type
IPL1
Description
Input pin with internal pull low 22.8k ohm
Output pin
IPH1
Input pin with internal pull high 22.8k ohm
Input pin with internal pull low
Input pin with internal pull high
IPL2
IPH2
Input pin with internal pull low 92.6k ohm
Input pin with internal pull high 113.8k ohm
Pin No.
Analog
52
Label
REG_OUT
Type
O
Description
Regulator output voltage
The internal regulator uses pin83/pin92 VCC_O as reference
voltage to control external transistor to generate a voltage
source between 1.80v ~ 2.05v..
If pin 53 EXTMII_EN is pulled high, then pin83/pin92 VCC_O
should be connected to 3.3v to generate 1.80v ~ 2.05v voltage
source.
If pin 53 EXTMII_EN is pulled low, then pin83/pin92 VCC_O
should be connected to 2.5v to generate 1.80v ~ 2.05v voltage
source.
17
BGRES
I
Band gap resister
It is connected to GND through a 6.19k (1%) resistor in
application circuit.
115, 116,
127, 126,
2, 3, 14,
13, 22,
23, 34,
33, 38,
39, 50,
49
RXIP0~7
RXIM0~7
I
TP receive
119, 120,
123, 122,
6, 7, 10,
9, 26, 27,
30, 29,
42, 43,
46, 45
TXOP0~7
TXOM0~7
O
TP transmit
14/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin No.
Misc.
36
54
Label
Type
NC
(FXSD6)
OSCI
Description
(for IP178CH only)
I
25Mhz system clock
55
X2
O
It is recommended to connect OSCI and X2 to a 25M crystal.
If the clock source is from another chip or oscillator, the clock
should be active at least for 1ms before pin 64 RESETB
de-asserted.
Pin 55 X2 should be left open in this application.
Crystal pin
64
RESETB
I
A 25Mhz crystal can be connected to OSCI and X2.
Reset
It is low active. It must be hold for more than 1ms. It is Schmitt
trigger input. If a R/C reset circuit is used, the capacitor should
be connected to VCC_O as shown in the figure.
VCC_O
R
RESETB
C
GND
84
LOW_10M_DIS
Or
SCA_DIS
IPH2
LOW_10M_DIS or SCA_DIS
If pin 73 SEL_SCA is pull low, then pin 84 is LOW_10M_DIS.
If pin 73 SEL_SCA is pull high, then pin 84 is SCA_DIS.
For LOW_10M_DIS
1: disable power saving mode, the 10M transmit amplitude is
depressed in this mode. (default)
0: enable power saving mode
For SCA_DIS
1: Disable smart cable analysis function (default).
0: Enable smart cable analysis function.
EEPROM
104
SCL
IPL2
/O
Clock of EEPROM
After reset, it is used as clock pin SCL of EEPROM. After
reading EEPROM, this pin becomes an input pin. Its period is
longer than 10us.
IP178C stops reading the rest data in EEPROM if the first two
bytes in EEPROM aren’t 55AA.
15/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
105
SDA
IPH2
/O
Data of EEPROM
After reset, it is used as data pin SDA of EEPROM. After reading
EEPROM, this pin becomes an input pin.
16/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
LED.
89, 90,
91, 93,
96, 97,
99, 100
Label
LINK_LED [7:0]
Type
O
Description
LINK LED
The detail functions are illustrated in the following table. It
should be connected to VCC_O through a LED and a resistor.
Application circuit
VCC_O
R
LINK_LED
66, 67,
68, 69,
70, 71,
72, 73
SPEED_LED [7:0]
75, 76,
77, 78,
79, 85,
86, 87
FDX_LED [7:0]
80, 81
LED_SEL [1:0]
O
SPEED LED
The detail functions are illustrated in the following table. It
should be connected to VCC_O through a LED and a resistor.
O
FDX LED
The detail functions are illustrated in the following table. It
should be connected to VCC_O through a LED and a resistor.
The function is valid only if pin 53 EXTMII_EN is pulled low.
IPH2
LED function selection
The data on these pins are latched at the end of reset to
select LED modes. The default value is mode 3. The detail
functions are illustrated in the following table.
After reset, these two pins becomes MII interface TXEN and
TXD3 if pin 53 EXTMII_EN is pulled high.
LED_SEL [1:0]
00
LED mode
Mode 0
LINK_LED [7:0]
Off: link fail
On: 10 Mbps link ok
Flash: Tx/Rx
SPEED_LED [7:0]
Off: link fail
On: 100 Mbps link ok
Flash: Tx/Rx
FDX_LED [7:0]
Off: half duplex
On: full duplex
01
Mode 1
Off: link fail
On: link ok
Flash: Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
10
Mode 2
Off: link fail
On: 10 Mbps link ok
Flash: Tx/Rx
Off: link fail
On: 100 Mbps link ok
Flash: Tx/Rx
Off: half duplex
On: full duplex
Flash: collision
11 (default)
Mode 3
Off: link fail
On: link ok
Flash: Tx/Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
17/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
BI_COLOR
IPL2
Description
LED.
95
Bi-color LED mode enable
1: Bi-color mode LED enabled. LED_LINK [7:0] and
LED_SPEED [7:0] are used to drive dual color LED. The
functions are defined in the following table. The behavior of
FDX_LED [7:0] is the asme as that in mode3 on the previous
page.
0: Bi-color mode LED disabled. Please refer to pin description of
LED_SEL [1:0] for LED functins.
This pin takes precedence of LED_SEL [1:0].
Application circuit
LINK_LED
LED 1
100M link/act
LED 2
10M link/act
SPEED_LED
Bi-color LED definition
Status
LINK_LED [7:0]
SPEED_LED [7:0]
LED 1
LED 2
Link off
100 Mbps link ok
1
1
1
0
Off
On
Off
Off
100 Mbps link ok/ activity
Clock
0
Flash
Off
10 Mbps link ok
0
1
Off
On
10 Mbps link ok/ activity
0
Clock
Off
Flash
18/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
Basic operation parameter setting of switch
87
LDPS_DIS
IPL1 Disable link down power saving mode
0: enable link down power saving mode (default)
1: disable link down power saving mode
LDPS_DIS is full duplex LED of port 0 after reset.
The function is valid only if pin 53 EXTMII_EN is pulled low.
89
MLT3_DET
IPL1
Ability for detecting MLT3 (for 10 Mbps switch to 100 Mbps)
0: disable MLT3 detection ability (default)
1: enable MLT3 detection ability
MLT3_DET is link LED of port 7 after reset.
91
BF_STM_EN
IPL1
Broadcast storm enable
1: enable, 0: disable (default)
A port begins to drop packets if it receives broadcast packets
more than the threshold defined in MII register 31.9[15:14]
bq_stm_thr_sel [1:0] or EEPROM register 83[7:6].
93
MODBCK
IPH1
/O
Aggressive back off enable
IP178C adopts modified (aggressive) back off algorithm if this
function is enabled. The maximum back off period is limited to
8-slot time. It makes IP178C have higher transmission priority in
a collision event.
1: aggressive mode enable (default),
0: standard back off
It is link LED of port 4 after reset.
76
AGING
IPH1
Aging enable
1: enable 300s aging timer (default)
0: disable aging function
The function is valid only if pin 53 EXTMII_EN is pulled low.
73
SEL_SCA
IPL1
Select SCA function
Function selection for PIN_84
0: PIN_84 is LOW_10M_DIS (default)
1: PIN_84 is SCA_DIS
75
X_EN
IPH1
/O
Flow control enable
1: enable IEEE802.3x & back pressure (default),
0: disable IEEE802.3x & back pressure
The function is valid only if pin 53 EXTMII_EN is pulled low.
19/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
Advance operation parameter setting of switch engine
100
P6_7_HIGH
IPL1 Port6 port7 are set to be high priority port
/O
Packets received from port6 or port7 are handled as high priority
packets if the function is enabled.
1: enable,
0: disabled (default)
It is an input signal during reset and its value is latched at the
end of reset. It acts as a link LED of port 0 after reset.
99
COS_EN
IPL1
/O
Class of service enable
Packets with high priority tag are handled as high priority
packets if the function is enabled.
1: enable,
0: disabled (default)
It is an input signal during reset and its value is latched at the
end of reset. It acts as a link LED of port 1 after reset.
79
VLAN_ON
IPL1
/O
Turn on VLAN
Enable a specific configuration of port base VLAN.
0: disabled (default),
1: enable
IP178C are separated into 7 VLANs if this function is enabled
and MII port is disabled.
The VLAN group is as follows.
VLAN 1
Pin 53 EXTMII_EN=0
port 0, port 7
Pin 53EXTMII_EN=1
port 0~7 & MII port
VLAN 2
port 1, port 7
port 0~7 & MII port
VLAN 3
port 2, port 7
port 0~7 & MII port
VLAN 4
port 3, port 7
port 0~7 & MII port
VLAN 5
VLAN 6
port 4, port 7
port 5, port 7
port 0~7 & MII port
port 0~7 & MII port
VLAN 7
port 6, port 7
port 0~7 & MII port
VLAN 8
NA
port 0~7 & MII port
It is an input signal during reset and its value is latched at the
end of reset. It acts as a full duplex LED of port 3 after reset.
The configuration can be updated by programming EEPROM
register. Please refer to EEPROM register 66~78 for detail
information.
20/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
Advance operation parameter setting of switch engine
77
BCSTF
IPL1 Broadcast frame option
1: Packets with DA equal to FFFFFFFF are handld as broadcast
frame in broadcast protection function,
0: Packets with DA equal to FFFFFFFF or multi-cast frames are
handld as broadcast frame in broadcast protection function.
The function is valid only if pin 53 EXTMII_EN is pulled low.
Programming MII register 31.30.12 will overwrite the setting.
78
FILTER_DA
IPL1
Reserved address forward option
Filter packets with specific DA from 01-80-c2-00-00-02 to
01-80-c2-00-00-0f. Packets with specific DA equal to
01-80-c2-00-00-01 are always filtered regardless the setting of
this pin.
1: filter, 0: forward (defaut)
The function is valid only if pin 53 EXTMII_EN is pulled low.
101
LONG_PKT_DIS
IPH2
Max packet size option
1: Drop packets with length longer than 1536 bytes
0: Drop packets with length longer than 1552 bytes
TP setting
90
MDI_MDIX_EN
IPH1
/O
MDI/MDI-X enable
MDI/MDI-X auto cross over
1: enable (default), 0:disable
It is an input signal during reset and its value is latched at the
end of reset to set auto MDI/MDIX function. It is link LED of port
6 after reset.
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Label
Type
MII configuration pins
53
EXTMII_EN
Pin no.
IPL2
Description
MII port enable
1: enable MII port,
0: disable MII port
This pin53 also determines the regulator output voltage. Please
see pin 52 REG_OUT for detail information.
104
MII_MAC
IPL2
/O
MII mode selection
It is latched as MII MAC/ PHY mode selection at the end of
reset. It should be pull high if pin 72 RMII_MII is pulled high.
1: MAC mode,
0: PHY mode
After reset, it is used as clock pin SCL of EEPROM
72
RMII_MII
IPL1
/O
MII RMII selection
It is latched as RMII_MII selection at the end of reset. It is valid
only if pin 53 EXTMII_EN is pulled high. Pin 104 MII_MAC
should be pull high RMII is enabled.
1: RMII,
0:MII
After reset, it is used as SPPED_LED1.
SMI
103, 102
MDC, MDIO
IPL2
,
IPH2
/O
SMI
The external MAC device uses the interface to access the
registers of IP178C. IP178C doesn’t access the MII registers of
external PHY.
22/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
MII interface/ PHY mode
(Pin 53 EXTMII_EN =1, pin104 MII_MAC=0 and Pin72 RMII_MII =0)
101
MIICLK
IPL2/
O
MII transmit & receive clock
It is an output signal when MII works at PHY mode. It should be
connected to MII TXCLK & RXCLK of an external MAC device.
87,86,85
,81
TXD0~TXD3
IPL1
IPL1
IPL1
IPH2
MII transmit data
80
TXEN
IPH2
They are input signals when MII works at PHY mode. They are
sampled at the rising edge of MIICLK. They should be
connected to MII TXD of an external MAC device.
MII transmit enable
It is an input signal when MII works at PHY mode. It is used to
frame TXD [3:0]. It is sampled at the rising edge of MIICLK. It
should be connected to MII TXEN of an external MAC device.
75
RXDV
IPH1/
O
MII receive data valid
It is an output signal when MII works at PHY mode. It is used to
frame RXD [3:0]. It is sent out at the falling edge of MIICLK. It
should be connected to MII RXDV of an external MAC device.
79, 78,
77, 76
56
RXD0~RXD4
NC
IPL1/
O,
IPL1/
O,
IPL1/
O,
IPH1/
O
MII receive data
IPH2
This pin should be left open
They are output signals when MII works at PHY mode. They are
sent out at the falling edge of MIICLK. They should be
connected to MII RXD of an external MAC device.
23/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
MII interface/ MAC mode
(Pin 53 EXTMII_EN =1, pin104 MII_MAC=1 and Pin72 RMII_MII =0)
101
TXCLK
IPL2
MII transmit clock
It is an input signal when MII works at MAC mode. It should be
connected to MII RXCLK of an external PHY.
87,86,85
,81
80
75
TXD0~TXD3
TXEN
RXDV
IPL1
IPL1
IPL1
IPH2
MII transmit data
IPH2
MII transmit enable
IPH1/
O
They are input signals when MII works at MAC mode. They are
sampled at the rising edge of TXCLK. They should be connected
to MII RXD of an external PHY.
It is an input signal when MII works at MAC mode. It is used to
frame TXD [3:0]. It is sampled at the rising edge of TXCLK. It
should be connected to MII RXDV of an external PHY.
MII receive data valid
It is an output signal when MII works at MAC mode. It is used to
frame RXD [3:0]. It is sent out at the falling edge of RXCLK. It
should be connected to MII TXEN of an external PHY.
79, 78,
77, 76
56
RXD0~RXD4
RXCLK
IPL1/
O,
IPL1/
O,
IPL1/
O,
IPH1/
O
MII receive data
IPH2
MII receive clock
They are output signals when MII works at MAC mode. They are
sent out at the falling edge of RXCLK. They should be
connected to MII TXD of an external PHY.
It is an input signal when MII works at MAC mode. It should be
connected to MII TXCLK of an external PHY.
This pin should be left open whenf MII/RMII is disabled.
24/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
RMII interface
(Pin 53 EXTMII_EN =1, pin104 MII_MAC=0 and Pin72 RMII_MII =1)
76
RMII_CLK_OUT
O
RMII reference clock source
56
87,86
RMII_CLK_IN
TXD0, TXD1
IPH2
IPL1
RMII reference clock input
RMII transmit data
It is sampled at the rising edge of RMII_CLK_IN.
80
TXEN
IPH2
RMII transmit enable
It is used to frame TXD [1:0]. It is sampled at the rising edge of
RMII_CLK_IN.
75
RXDV
IPH1/
O
RMII receive data valid
It is used to frame RXD [1:0]. It is sent out at the rising edge of
RMII_CLK_IN.
79, 78
RXD0, RXD1
IPL1/
O
RMII receive data
It is sent out at the rising edge of RMII_CLK_IN.
25/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Pin description (continued)
Pin no.
Label
Type
Description
Power
16
BGVCC
I
Power of band gap circuit
18
BGGND
I
Power of band gap circuit
19
PLLGND
I
Ground of PLL circuit
20
59, 60,
110, 111,
112,
113,
PLLVCC
GND
I
I
Power of PLL circuit
Ground of internal logic
57
GND
(FXSD7)
( for IP178CH only )
58
61, 62,
63, 106,
107,
108,
109,
GND
VCC
I
Power of internal logic
65, 94,
GND_SRAM
I
Ground of internal SRAM
74, 98,
VCC_SRAM
I
Power of internal SRAM
82, 88,
83, 92,
GND_O
VCC_O
I
I
Ground for LED, MII and EEPROM
Power for LED, MII and EEPROM
114,
128, 1,
15, 21,
35, 37,
51
RXVCC0~7
I
Power of analog receive block
117,
125, 4,
12, 24,
32, 40,
48,
RXGND0~7
I
Ground of analog receive block
118,
124, 5,
11, 25,
31, 41,
47,
121,
8,
28,
44,
TXGND0~7
I
Ground of analog transmit buffer
TXVCC01
TXVCC23
TXVCC45
TXVCC67
I
Power of analog transmit buffer
26/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2
Functional Description
100 Mbps full MII (RMII) port (pin EXTMII_EN=1)
MII PHY mode (MII_MAC=0)
IP178C
1K
RXDV
RXD [3:0]
CRS
RXDV
RXD [3:0]
RXCLK
EXTMII_EN
MII_MAC
MAC
TXEN
TXEN
TXD [3:0]
TXCLK
RXDV
TXEN
TXD [3:0]
1K
TXD [3:0]
MIICLK(TXCLK)
MII MAC mode (MII_MAC=1)
IP178C
1K
1K
RXD [3:0]
RXCLK
TXCLK
PHY
MII_MAC
EXTMII_EN
TXEN
TXD [3:0]
TXCLK
27/91
Copyright © 2004, IC Plus Corp.
RXDV
RXD [3:0]
RXCLK
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
RMII mode (EXTMII_EN=1, RMII_MII=1, MII_MAC=1)
MII_MAC should be pulled high in spite of IP178C connecting to a MAC or a PHY.
IP178C
1K
RXDV
RXD [1:0]
1K
EXTMII_EN
RXDV
RXD [1:0]
RMII_CLK_IN
MAC
MII_MAC
RMII_CLK_OUT
REF_CLK
1K
TXEN
RMII_MII
TXEN
TXD [1:0]
TXD [1:0]
IP178C
1K
RXDV
TXEN
RXD [1:0]
1K
EXTMII_EN
MII_MAC
1K
RMII_MII
TXD [1:0]
RMII_CLK_IN
PHY
RMII_CLK_OUT
REF_CLK
TXEN
TXD [1:0]
RXDV
RXD [1:0]
28/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
LED display (normal operation)
Normal operation
LED_O_SEL
LinK_LED
SPEED_LED
FDX_LED
00
Off: link fail
On: 10 Mbps link ok
Flash: Tx/Rx
Off: link fail
On: 100 Mbps link ok
Flash: Tx/Rx
Off: half duplex
On: full duplex
01
Off: link fail
On: link ok
Flash: Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
10
Off: link fail
On: 10 Mbps link ok
Flash: Tx/Rx
Off: link fail
On: 100 Mbps link ok
Flash: Tx/Rx
Off: half duplex
On: full duplex
Flash: collision
11
Off: link fail
On: link ok
Flash: Tx/Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
Flash behavior: Off 44ms Æ On 176ms Æ Off 44ms Æ …
When link quality is poor
LED_O_SEL
LinK_LED
Don’t care
SPEED_LED
FDX_LED
Flash
Flash behavior: Off 2s Æ On 2s ÆOff 2s Æ …
SCA
See SCA paragraph for detail information
29/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.1
Flow control
IP178C jams or pauses a port, which causes output queue over the threshold. Its link partner will defer
transmission after detecting the jam or pause frame. A port of IP178C defers transmission when it
receives a jam or a pause frame.
When CoS is enabled, IP178C may disable the flow control function for a short term to guarantee the
bandwidth of high priority packets. A port disables its flow control function for 2 ~ 3 seconds when it
receives a high priority packet. It doesn’t transmit pause frame or jam pattern during the period but it still
responses to pause frame or jam pattern.
The flow control function can be enabled by pulling up pin 75 X_EN or by programming MII register
30.1.10.
30/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.2
Broadcast storm protection
A port of IP178C begins to drops broadcast packets if the received broadcast packets are more than the
threshold defined in MII register 31.9[15:14] or EEPROM register 83[7:6] bq_stm_thr_sel [1:0] in 10ms
(100Mbps) or 100ms (10Mbps)
The function can be enabled by pulling high pin 91 BF_STM_EN or programming MII register 30.1.[6].
IP178C handles multicast frame as a broadcast frame in broadcast storm protection function if pin 77
BCSTF is pulled low.
31/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.3
Port locking
IP178C supports port locking. Each port can be configured individually by programming MII register
30.31[8:0] or EEPROM 63[0] and 62[7:0]. User has to reset IP178C by writing 16’h55AA to MII register
30.0 after enabling this function. IP178C locks first MAC address if the function is enabled. Any packet
with MAC address not equal to the locked one will be dropped.
User has to turn off aging function when using the port locking function. Aging function can be disabled
by pulling low pin 76 AGING or programming register 30.1[3:2].
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.4
Port base VLAN
IP178C supports port base VLAN functions. It separates IP178C into some groups (VLAN). A port is
limited to communicate with other ports within the same group when the function is enabled. Frames will
be limited in a VLAN group and will not be forwarded out of this VLAN group. A port can be assigned to
one or more VLAN groups. The members (ports) of a VLAN group are assigned by programming
EEPROM register 64[7:0]~81[7:0], or MII register 31.0[8:0]~31.8[8:0].
The VLAN function can be active even if there is no EEPROM. IP178C supports an easy way to enable a
sub set VLAN function without programming registers. A default configuration of VLAN is adopted if pin
79 VLAN_ON is pulled high. The VLAN guration is shown in the following table. The setting in register
takes precedence of the setting on pins.
VLAN_ON
EXTMII_EN
Configuration
0
1
X
0
Function disabled
VLAN groups:
(P0, P7), (P1, P7), (P2, P7), (P3, P7),
(P4, P7), (P5, P7), (P6, P7)
1
1
VLAN groups:
(P0, MII), (P1, MII), (P2, MII), (P3, MII),
(P4, MII), (P5, MII), (P6, MII), (P7, MII)
Note: P0 means port 0. P7 means port7. MII means MII port.
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.5
Tag VLAN/ Tag and un-tag function
Tag and un-tag function
IP178C inserts or removes a tag of a frame if tagging/ un-tagging function is enabled. The operation is
illustrated as follows. The tag information is defined in MII register 30.3~30.11 and EEPROM register
6~22.
Frame type of the
received packet
The operation of a port which forwards the packet
Untagged
Forward to a untagged filed
Forward the packet without
modification
Forward to a tagged field
Insert a tag using the default VLAN tag
value of the source port
Calculate new CRC
The default VLAN tag value is defined in
the MII register 30.3~30.11.
Priority-tagged
(VLAN ID=0)
Strip tag
Calculate new CRC
Keep priority field.
Replace the tag with the default VLAN tag
value of the source port
Calculate new CRC
The default VLAN tag value is defined in
the MII register 30.3~30.11.
VLAN-tagged
Strip tag
Calculate new CRC
Forward the packet without modification
2.6
Tag VLAN
If tag VLAN function is enabled (MII register 30.13[3] TAG_VLAN_EN is logic high), IP178C forwards a
packet according to MAC address table and one of the sixteen VLAN output port masks, defined in MII
register 30.14~30.29. One of the sixteen VLAN output mask is selected by VID index, which is four bits
selected from VID field in a tag. VID index is defined in MII register 30.13[2:0] VID_SEL. For example,
VLAN output port mask 1 is selected if VID index selected by VID_SEL is equal to 1.
IP178C handles an un-tagged packet using the default VLAN tag value of its source port. A packet with
VID equal to 12’b0 will be handled as un-tag frame.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.7
Tag VLAN in router application
In a router application, MII port is defined as a tagged port and the other ports are defined as un-tagged
ports. IP178C inserts VLAN tag into packets according to its source port when it forwards the packets to
MII port. The pre-defined VLAN tag value is defined in register 30.3~11. CPU can identify the source port
of a packet from MII by examining the VLAN tag.
CPU inserts VLAN tag into packets when it sends packets to MII port. IP178C forwards a packet from MII
to the appropriate port according to the MAC address and VLAN tag. IP178C removes the VLAN tag
when it forwards the packet.
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.8
Smart MAC
IP178C supports SMART MAC function to solve locked Card’s ID issue. The following system
configuration and operation illustrate the behavior of IP178C SMART MAC function. The SMART MAC
setting is defined in MII register 30[11:0].
System configuration
tag
v
untag
--
PVID
1,2
MII
MAC8
MAC0
MAC1
MAC2
MAC7
PHY0
PHY1
PHY2
PHY7
WAN port
7 LAN ports
tag
--
untag
v
PVID
1
tag
--
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Copyright © 2004, IC Plus Corp.
CPU
untag
v
PVID
2
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
A programming example of SMART MAC
Register
Content
Description
Tag/ un-tag function setup
30.13[12]
0
30.12[8]
1
MII0 doesn’t strip the tag of an outgoing packet.
MII0 adds a tag to an outgoing packet.
30.13[11:4]
111_1111
Port0~7 strip the tag of an outgoing packet.
30.12[7:0]
000_0000
Port0~7 doesn’t add a tag to an outgoing packet.
PVID function setup
30.3~30.9
16’h0001
30.10
16’h0002
Define PVID of port0~port6
Define PVID of port7
30.11
Define PVID of MII0
16’h0002
VLAN Mask function setup
30.14[8:0]
9’h1ff
TAG_VLAN_MASK_1
30.15[8:0]
TAG_VLAN_MASK_2
9’h17f
SMART MAC function setup
30.30[10:8]
001
Define 1 LAN group
30.30[11]
1
Enable router function
30.13[2:0]
000
Define VID index as 000
30.13[3]
1
Enable tag VLAN
30.30[7:0]
100_0000
Define port 7 as a WAN port
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Operation
1.
Packet from LAN to WAN
1.1.
1.2.
1.3.
1.4.
PC0 sends a packet to a LAN port with SA equal to PC0 and PVID equal to 1.
IP178C forwards the packet to CPU with PVID equal to 1.
CPU replaces the SA with locked address PC3, replaces PVID with 2 and sends it to IP178C.
IP178C forwards the packet to port7 (WAN port).
DA
SA
PVID
CPU
PC0
1
(2)
7 LAN ports (PVID=1)
MAC8
(3)
MAC0
MAC1
MAC2
MAC7
PHY0
PHY1
PHY2
PHY7
CPU
locked SA=PC3
DA
SA
PVID
WAN
PC3
2
1 WAN ports (PVID=2)
(1)
(4)
DA
SA
PVID
DA
SA
PVID
CPU
PC0
1
WAN
PC3
--
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2. Packet from WAN to LAN
2.1.
2.2.
2.3.
2.4.
2.5.
WAN port receives a packet with locked address PC3.
IP178C adds a PVID equal to 2 and forwards the packet to CPU.
CPU updates the DA, replaces PVID with 1 and sends it to IP178C.
IP178C learns the SA.
IP178C forwards the packet to port0 according to the DA.
(4) Learning SA = CPU
DA
PC0
SA
CPU
PVID
1
(3)
7 LAN ports (PVID=1)
MAC8
(2)
MAC0
MAC1
MAC2
MAC7
PHY0
PHY1
PHY2
PHY7
DA
PC3
CPU
locked SA=PC3
SA
WAN
PVID
2
1 WAN ports (PVID=2)
(5)
(1)
DA
PC0
SA
CPU
PVID
none
DA
PC3
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Copyright © 2004, IC Plus Corp.
SA
WAN
PVID
none
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.9
CoS
IP178C supports two type of CoS. One is port base priority function and the other is frame base priority
function. IP178C supports two levels of priority queues. A high priority packet will be queued to the high
priority queue to share more bandwidth. The ratio of bandwidth of high priority and low priority queue is
defined in MII register 30.1[15] or EEPROM 3[7].
2.9.1
Port base priority
The packets received from high priority port will be handled as high priority frames if the port base priority
is enabled. It is enabled by programming the corresponding bit in MII register 31.0[9]~31.8[9] or
EEPROM register 65[1] ~81[1]. Each port of IP178C can be configured as a high priority port individually.
2.9.2
Frame base priority
VLAN tag and TCP/IP TOS
IP178C examines the specific bits of VLAN tag and TCP/IP TOS for priority frames if the frame base
priority is enabled. The packets will be handled as high priority frames if the tag value meets the high
priority requirement, that is, VLAN tag bigger than 3 or TCP/IP TOS field not equal to 3’b000. It is
enabled by programming the corresponding bit in MII register 31.0[10]~31.8[10] or EEPROM register
65[2]~81[2]. The frame base priority function of each port can be enabled individually.
IP178C supports an easy way to enable a sub set of CoS function without programming EEPROM or MII
registers. Port 6 and port 7 can be set as high priority ports if pin 100 P6_7_HIGH is pulled high. Frame
base priority function of all ports is enabled if pin 99 COS_EN is pulled high. The setting in register takes
precedence of the setting on pins.
VLAN field
TCI definition:
TYPE = 8100
TCI (tag control information)
12~13
14~15
byte
TOS field
byte
Bit[15:13]: User Priority 7~0
Bit 12: Canonical Format Indicator (CFI)
Bit[11~0]: VLAN ID.
IP178C uses bit[15:13] to define priority.
IP header definition:
Byte 14
Bit[7:0]: IP protocol version number & header length.
TYPE = 0800
IP HEADER
12~13
14~15
Byte 15: Service type
Bit[7~5]: IP Priority (Precedence ) from 7~0
Bit 4: No Delay (D)
Bit 3: High Throughput
Bit 2: High Reliability (R)
Bit[1:0]: Reserved
IP178C uses bit[4:2] to define priority.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
IPv4/IPv6 DiffServ
IP178C checks the DiffServ field of a IPv4 frame or Traffic class field [7:2] (TC[7:2]) of a IPv6 frame and
uses them to decide the frame’s priority if MII register 31.30.[13] DIFFSERV_EN is enabled. IP178C
uses DiffServ or TC [7:2] as index to select one of 64 bits defined in the MII register 31.22~25
DSCP[63:0]. If the bit is “1”, the received frame is handled as a high priority frame.
IPv4 frame format
Preamble SFD
6 byte
6 byte
4 byte
2 byte
2 byte
DA
SA
802.1Q tag
(optional)
TYPE=0800
DATA
VER=0100
Header
Size
DiffServ
RES
4 bit
4 bit
6 bit
2 bit
FCS
IPv6 frame format
Preamble SFD
6 byte
6 byte
4 byte
2 byte
DA
SA
802.1Q tag
(optional)
TYPE=86DD
DATA
FCS
VER=0110
Traffic Class[7:2]
RES
----
4 bit
6 bit
2 bit
4 bit
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Copyright © 2004, IC Plus Corp.
2 byte
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.10
Spanning tree
IP178C supports spanning tree function with the following features:
1. Detect BPDU frames by examining multicast address (01-80-c2-00-00-00).
2. Forward BPDU packets to CPU through MII and add special tag for source port information.
Forward BPDU packets from CPU according to the special tag in a frame.
Please refer to section “Tag VLAN / Tag and un-tag function”.
Port states
To support spanning tree protocol, each port of IP178C provides five port states shown in the following
table. Port 0~7 of IP178C can be configured in one of the five spanning tree states individually by
programming MII register 31.13 to enable (disable) forwarding and learning function. Port 8 (MII) is
dedicated for CPU.
State
Disable
Fwd BPDU
Fwd BPDU packet
packet to CPU
from CPU
X (note 2)
X (note 2)
Address
learning
X
Fwd all packet
normally
X
(Forward enable,
Learning enable)
(0,0)
Blocking
O
X (note 3)
X
X
(0,0)
Listening
O
O
X
X
(0,0)
Learning
O
O
O
X
(0,1)
Forwarding
O
O
O
O
(1,1)
Note1: O: enabled, X: disabled
Note2: CPU should not send packets to IP178C and should discard packets from IP178C.
Note3: CPU should not send packets to IP178C.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Special tag
IP178C supports special tag function to exchange switching information with CPU without involving VLAN
tag information. The special tag function is enabled by programming MII register 31.30[14] STAG_EN.
From CPU to switch
When special tag function is enabled, IP178C forwards packets from MII (CPU) by checking special tag
added by CPU. The tag definition is shown in the following table. IP178C will remove the special tag
81XX and re-calculate CRC when it forwards the packet to a un-tag field. IP178C will update the special
tag to 81XX and re-calculate CRC when it forwards the packet to a tag field.
Preamble
SFD
DA
SA
81XX(special tag)
Data
CRC
Special tag 81XX
bit [15:12]
bit[11:8]
8
1
bit[7:0]
0000_0001: instruct 178C forwards the packet to port 0
0000_0010: instruct 178C forwards the packet to port 1
0000_0100: instruct 178C forwards the packet to port 2
0000_1000: instruct 178C forwards the packet to port 3
0001_0000: instruct 178C forwards the packet to port 4
0010_0000: instruct 178C forwards the packet to port 5
0100_0000: instruct 178C forwards the packet to port 6
1000_0000: instruct 178C forwards the packet to port 7
From switch to CPU
When special tag function is enabled, IP178C sends packets to MII (CPU) with source port information
by adding special tag to the frame. IP178C will add the special tag 81XX and re-calculate CRC when it
receives the packet from a un-tag field. IP178C will update the tag 8100 to 81XX and re-calculate CRC
when it receives the packet from a tag field. The tag definition is shown in the following table.
Bit[15:12]
8
bit[11:8]
1
bit[7:0]
0000 0001: the source port of the packet is port 0
0000 0010: the source port of the packet is port 1
0000 0100: the source port of the packet is port 2
0000 1000: the source port of the packet is port 3
0001 0000: the source port of the packet is port 4
0010 0000: the source port of the packet is port 5
0100 0000: the source port of the packet is port 6
1000 0000: the source port of the packet is port 7
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.11
Static MAC address table
User can setup the static MAC address table to force the switching behavior of IP178C by programming
MII register 31.14 ~ 30.21. When IP178C receives packets, which match pre-defined MAC address in the
table (static_mac_0, static_mac_1), it forwards the packet to MII port (CPU). The static MAC address
table has precedence over the dynamic DA look up result.
In a spanning tree application, the MII register 31.17[10] static_override_0 is “1”, MII register 31.17[9]
static_valid_0 is ”1”, the MII register 31.14~31.16 MAC address field is 01-80-c2-00-00-00 and the MII
register 31.17[8:0] static_port_mask_0 is 9’b1_0000_0000 (MII). That is, IP178C only forwards BPDU to
MII (CPU) and in spite of the port states.
MII register
R/W
31.17.10
R/W override_0
1
1: override the transmission, receiving and learning setting
in MII register 31.13.
0: not override
R/W state_valid_0
0
1: the entry is valid
0: the entry is not valid
31.17.9
Description
Default
31.17[8:0]
R/W state_port_mask_0
Bit 8: forward to port 8 (MII)
Bit 7: forward to port 7
Bit 6: forward to port 6
Bit 5: forward to port 5
Bit 4: forward to port 4
Bit 3: forward to port 3
Bit 2: forward to port 2
Bit 1: forward to port 1
Bit 0: forward to port 0
9’b1_0000_0000
31.14 – 16
R/W state_mac_0
01-80-C2-00-00-00
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.12
Serial management interface
User can access IP178C’s MII registers through serial management interface with pin MDC and MDIO.
Its format is shown in the following table. To access MII register in IP178C, MDC should be at least one
more cycle than MDIO. That is, a complete command consists of 32 bits MDIO data and at least 33 MDC
clocks. When the SMI is idle, MDIO is in high impedance.
Syatem diagram
178C
MDC
MDIO
CPU
Frame
format
<Idle><start><op code><PHY address><Registers address><turnaround>
<data><idle>
Read
Operation
<Idle><01><10><A4A3A2A1A0><R4R3R2R1R0><Z0>
<b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1b0><Idle>
Write
Operation
<Idle><01><01><A4A3A2A1A0><R4R3R2R1R0><10>
<b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1b0><Idle>
MDC
z
z
MDIO
1..1 0 1 0 1 0 0 0 0 1 0 0 0 0 0 1 0 0 0 1 1 0 0 1 1 0 0 0 0 0 0 0 0 1..1
idle
op
start code
write
A A A A A R R R R R TA b b b b b b b b b b b b b b b b
1 1 1 1 1 1 9 8 7 6 5 4 3 2 1 0
4 3 2 1 0 4 3 2 1 0
PHY address =
Reg address =
5 4 3 2 1 0
Register data
01h
00h
idle
MDC
MDIO
z
z
z
1..1 0 1 1 0 0 0 0 0 1 0 0 0 0 0 Z 0 0 0 1 1 0 0 0 1 0 0 0 0 0 0 0 0 1..1
idle
op
start code
read
A A A A A R R R R R TA b b b b b b b b b b b b b b b b
1 1 1 1 1 1 9 8 7 6 5 4 3 2 1 0
4 3 2 1 0 4 3 2 1 0
PHY address =
Reg address =
5 4 3 2 1 0
Register data
01h
00h
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Copyright © 2004, IC Plus Corp.
idle
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.13
SCA
IP178C performs SCA on each port and shows the test result on LED pins whenever pin SCA is pulled
high. The LED display is independent of LED_SEL pins. The following table shows the LED behavior of a
port performing SCA.
SCA initiation
(under testing)
Test fail
LinK_LED
Scan port by port
SPEED_LED
Scan port by port
FDX_LED
Scan port by port
Running Horse LED:
On 286ms -> Off 2s -> On 286ms -> Off 2s
On-Off-On-Off
On-Off-On-Off
Off
An open cable with length
shorter than 40m open
On
Off
Off
An open cable with length
between 40m and 80m
Off
On
Off
An open cable with length
between 80m and 120m
On
On
Off
An shorted cable with
length shorter than 40m
Flash
Off
Off
An shorted cable with
length between 40m and
80m
Off
Flash
Off
An shorted cable with
length between 80-120m
Flash
Flash
Off
Off
Off
Off
Cable is normal
2.14
Bandwidth control
IP178C provides the bandwidth control mechanism to manage or control the data rate on a limited
bandwidth network. By controlling the ingress data rate and the egress data rate, it provides a bandwidth
management solution for local area networks and also provides quick and easy allocation of uplink or
downlink speeds to meet and guarantee a wide range of customer bandwidth requirements.
IP178C provides the easiest way to allocate bandwidth for each port, which defined in MII registers 31.26
~ 31.29 or EEPROM registers 116 ~ 123. The ingress/egress data rate control range is from 128 kbps to
8 Mbps for each port.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
2.15
Register descriptions
R/W = Read/Write, SC = Self-Clearing, RO = Read Only, LL = Latching Low, LH = Latching High
Basic MII registers of port 0
PHY
MII
ROM
R/W
Description
Default
MII control register (address 00)
0
0.15
-Reset
0
0
0.14
--
R/W
Loop back
1 = Loop back mode
0 = normal operation
When this bit set, IP178C will be isolated from the network
media, that is, the assertion of TXEN at the MII will not
transmit data on the network. All MII transmission data will be
returned to MII receive data path in response to the assertion
of TXEN.
0
0
0.13
--
RW
1
0
0.12
--
RW
Speed Selection
1 = 100 Mbpsbps
0 = 10 Mbpsbps
It is valid only if bit 0.12 is set to be 0.
Auto-Negotiation Enable
1 = Auto-Negotiation Enable
0 = Auto-Negotiation Disable
0
0
0.11
0.10
---
R/W
Power Down
Isolate
0
0
0
0.9
--
RW
SC
0
0
0.8
--
R/W
Restart Auto- Negotiation
1 = re-starting Auto-Negotiation
0 = Auto-Negotiation re-start complete
Setting this bit to logic high will cause IP178C to restart an
Auto-Negotiation cycle, but depending on the value of bit 0.12
(Auto-Negotiation Enable). If bit 0.12 is cleared then this bit
has no effect, and it is Read Only. This bit is self-clearing after
Auto-Negotiation process is completed.
Duplex mode
1 = full duplex
0 = half duplex
It is valid only if bit 0.12 is set to be 0.
0
0.7
--
R/W
Collision test
0
0
0[6:0]
--
R/W
Write as 0, ignore on read
-
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Copyright © 2004, IC Plus Corp.
1
0
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
MII status register (address 01)
0
1.15
-RO 100Base-T4 capable
1 = 100Base-T4 capable
0 = not 100Base-T4 capable
IP178C does not support 100Base-T4. This bit is fixed to be 0.
0
1.14
--
RO
0
1.13
--
RO
0
1.12
--
RO
0
1.11
--
RO
0
1[10:7]
--
0
1.6
0
1.5
0
100Base-X full duplex Capable
1 = 100Base-X full duplex capable
0 = not 100Base-X full duplex capable
The default of this bit will change depend on the external
setting of IP178C. If external pin setting without 100Base-X
full duplex support, then this bit will change default to logic 0.
100Base-X half duplex Capable
1 = 100Base-X half duplex capable
0 = not 100Base-X half duplex capable
The default of this bit will change depend on the external
setting of IP178C. If external pin setting without 100Base-X
half duplex support, then this bit will change default to logic 0
10Base-T full duplex Capable
1 = 10Base-T full duplex capable
0 = not 10Base-T full duplex capable
The default of this bit will change depend on the external
setting of IP178C. If external pin setting without 100Base-T
full duplex support, then this bit will change default to logic 0
10Base-T half duplex Capable
1 = 10Base-T half duplex capable
0 = not 10Base-T half duplex capable
The default of this bit will change depend on the external
setting of IP178C. If external pin setting without 100Base-X
full duplex support, then this bit will change default to logic 0
1
RO
Reserved
Ignore on read
-
--
RO
MF preamble Suppression
1 = preamble may be suppressed
0 = preamble always required
1
--
RO
Auto-Negotiation Complete
1 = Auto-Negotiation complete
0 = Auto-Negotiation in progress
When read as logic 1, indicates that the Auto-Negotiation
process has been completed, and the contents of register 4
and 5 are valid. When read as logic 0, indicates that the
Auto-Negotiation process has not been completed, and the
contents of register 4 and 5 are meaningless. If
Auto-Negotiation is disabled (bit 0.12 set to logic 0), then this
bit will always read as logic 0.
0
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Copyright © 2004, IC Plus Corp.
1
1
1
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
MII status register (address 01)
0
1.4
-RO Remote fault
LH 1 = remote fault detected
0 = not remote fault detected
When read as logic 1, indicates that IP178C has detected a
remote fault condition. This bit is set until remote fault
condition gone and before reading the contents of the
register. This bit is cleared after IP178C reset.
0
0
1.3
--
RO
Auto-Negotiation Ability
1 = Auto-Negotiation capable
0 = not Auto-Negotiation capable
When read as logic 1, indicates that IP178C has the ability to
perform Auto-Negotiation. The value of this bit will depend on
the external mode setting of IP178C operation mode.
1
0
1.2
--
RO
LL
Link Status
1 = Link Pass
0 = Link Fail
When read as logic 1, indicates that IP178C has determined a
valid link has been established. When read as logic 0,
indicates the link is not valid. This bit is cleared until a valid
link has been established and before reading the contents of
this registers.
0
0
1.1
--
Jabber Detect
1 = jabber condition detected
0 = no jabber condition detected
When read as logic 1, indicates that IP178C has detected a
jabber condition. This bit is always 0 for 100 Mbps operation
and is cleared after IP113A reset. This bit is set until jabber
condition is cleared and reading the contents of the register.
0
0
1.0
--
Extended capability
1 = Extended register capabilities
0 = No extended register capabilities
IP178C has extended register capabilities.
1
RO
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
PHY Identifier (address 02)
0
2
-RO
PHY
MII
ROM
Description
Default
IP178C OUI (Organizationally Unique Identifier) ID, the msb
is 3rd bit of IP178C OUI ID, and the lsb is 18th bit of IP178C
OUI ID. IP178C OUI is 0090C3.
0243h
Description
Default
PHY identifier
IP178C OUI ID, the msb is 19th bit of IP178C OUI ID, and lsb
is 24th bit of IP178C OUI ID.
3h
18h
R/W
PHY Identifier (address 03)
0 3[15:10]
-RO
0
3[9:4]
--
RO
Manufacture’s Model Number
IP178C model number
0
3[3:0]
--
RO
Revision Number
IP178C revision number
50/91
Copyright © 2004, IC Plus Corp.
0
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Auto-Negotiation Advertisement register (address 04)
0
4.15
-Next Page
Not supported
0
0
4.14
--
RW
Reserved by IEEE, write as 0, ignore on read
0
0
4.13
--
R/W
Remote Fault
Not supported
0
0
4[12:11]
--
RO
Reserved for future IEEE use, write as 0, ignore on read
0
0
4.10
--
RW
Pause
1 = Advertises that this device has implemented pause function
0 = No pause function supported
0
0
4.9
--
RW
100BASE-T4 Not supported
0
0
4.8
--
R/W
100BASE-TX full duplex
1 = 100BASE-TX full duplex is supported
0 = 100BASE-TX full duplex is not supported
1
0
4.7
--
R/W
100BASE-TX
1 = 100BASE-TX is supported
0 = 100BASE-TX is not supported
1
0
4.6
--
R/W
0
4.5
--
0
4[4:0]
--
10BASE-T full duplex
1 = 10BASE-T full duplex is supported
0 = 10BASE-T full duplex is not supported
R/W 10BASE-T
1 = 10BASE-T is supported
0 = 10BASE-T is not supported
R/W Selector Field
Use to identify the type of message being sent by
Auto-Negotiation.
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Copyright © 2004, IC Plus Corp.
1
1
00001
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Link partner ability register (address 05) Base Page
0
5.15
RO Next Page
1 = Next Page ability is supported by link partner
0 = Next Page ability does not supported by link partner
0
0
5.14
RO
Acknowledge
1 = Link partner has received the ability data word
0 = Not acknowledge
0
0
5.13
RO
Remote Fault
1 = Link partner indicates a remote fault
0 = No remote fault indicate by link partner
If this bit is set to logic 1, then bit 1.4 (Remote fault) will set to
logic 1.
0
0
5[12:11]
--
RO
Reserved by IEEE for future use, write as 0, read as 0.
0
0
5.10
--
RO
Pause
1 = Link partner support IEEE802.3x
0 = Link partner does not support IEEE802.3x
IP178C will reload the default value after rest or link failure.
1
0
5.9
--
RO
100BASE-T4
1 = Link partner support 100BASE-T4
0 = Link partner does not support 100BASE-T4
0
0
5.8
--
RO
100BASE-TX full duplex
1 = Link partner support 100BASE-TX full duplex
0 = Link partner does not support 100BASE-TX full duplex
0
0
5.7
--
RO
100BASE-TX
1 = Link partner support 100BASE-TX
0 = Link partner does not support 100BASE-TX
0
0
5.6
--
RO
10BASE-T full duplex
1 = Link partner support 10BASE-T full duplex
0 = Link partner does not support 10BASE-T full duplex
0
0
5.5
--
RO
0
0
5[4:0]
--
RO
10BASE-T
1 = Link partner support 10BASE-T
0 = Link partner does not support 10BASE-T
Selector Field
Protocol selector of the link partner
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Copyright © 2004, IC Plus Corp.
00000
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
During SCA_mode, the SCA result for each port will be stored at MII_reg_05: Auto-Negotiation
Link Partner Base Page Ability. SCA setting register
0 5[15:14]
-RO SCA_line_state
3: test fail (not complete)
2: line okay
1: line open
0: line short
5[13:8]
--
RO
SCA_peak_val
SCA measured peak amplitude
5[7:0]
--
RO
SCA_peak_posSCA measured peak position
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
Basic MII registers of port 1-7
PHY
MII
ROM
R/W
Port 1 MII register 0~5
1
0~5
--
PHY
MII
ROM
MII
ROM
R/W
MII
ROM
R/W
MII
ROM
MII
ROM
MII
ROM
Default
Description
Default
Please refer to MII registers 0.0~0.5.
R/W
Description
Default
Please refer to MII registers 0.0~0.5.
R/W
Port 6 MII register 0~5
6
0~5
--
PHY
Description
R/W
Port 5 MII register 0~5
5
0~5
--
PHY
Default
Please refer to MII registers 0.0~0.5.
Port 4 MII register 0~5
4
0~5
--
PHY
Description
Please refer to MII registers 0.0~0.5.
Port 3 MII register 0~5
3
0~5
--
PHY
Default
Please refer to MII registers 0.0~0.5.
Port 2 MII register 0~5
2
0~5
--
PHY
Description
Description
Default
Please refer to MII registers 0.0~0.5.
R/W
Port 7 MII register 0~5
7
0~5
--
Description
Please refer to MII registers 0.0~0.5.
54/91
Copyright © 2004, IC Plus Corp.
Default
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
EEPROM enable register / Software reset register
30
-1, 0
EEPROM enable register
This register should be filled with 55AA in EERPOM register 0
and 1. IP178C will examine the specified pattern to confirm if
there is a valid EEPROM. The initial setting is updated with
the content of EEPROM only if the specified pattern 55AA is
found.
30
0
--
W
Software reset register
MII register 0 is software reset register. User can reset
IP178C by writing 55AA to this register.
30
0.15
--
R
30
0.14
--
R
bfll_full, free buffer is full
1: full,
0: not full
This bit is for debug only.
extmii_en_in
1: pin EXTMII_EN is latched high,
0: pin EXTMII_EN is latched low
This bit is for debug only.
30
0.13
--
R
Empty, all output queue is empty
1: empty
0: not empty
This bit is for debug only.
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Switch control register 1
30
1[15]
3[7]
Description
Default
PRIORITY_RATE
1: 8 packets
0: 4 packets
1’b0
Output Queue Scheduling: high priority packet rate
30
1[14:13]
3[6:5]
LED_O_SEL
LED mode selection
P(1,1)
LinK_LED
SPEED_LED
FDX_LED
00
Off: link fail
On: 10 Mbps
link ok
Flash: Tx/Rx
Off: link fail
On: 100 Mbps
link ok
Flash: Tx/Rx
Off: half duplex
On: full duplex
01
Off: link fail
On: link ok
Flash: Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
10
Off: link fail
On: 10 Mbps
link ok
Flash: Tx/Rx
Off: link fail
On: 100 Mbps
link ok
Flash: Tx/Rx
Off: half duplex
On: full duplex
Flash: collision
11
Off: link fail
On: link ok
Flash: Tx/Rx
Off: 10 Mbps
On: 100 Mbps
Off: half duplex
On: full duplex
Flash: collision
30
1[12]
3[4]
Reserved
1'b0
30
1[11]
3[3]
Drop16
1: enable, 0:disable
1’b0
30
1[10]
3[2]
P(1)
30
1[9]
3[1]
X_EN, IEEE 802.3x flow control enable
1: enable, 0:disable
EXT_MII_X_EN, MII port IEEE 802.3x flow control enable
1: enable, 0:disable
30
1[8]
3[0]
P(1)
30
1[7]
2[7]
BK_EN, Backpressure enable
1: enable, 0: disable
BP_KIND, Backpressure type selection
It is valid only if Bk_en is set to 1’b1.
1’b1
1’b0
0: carrier base backpressure
1: reserved
30
1[6]
2[6]
BF_STM_EN, Broadcast storm enable
1: enable
IP178C drops the incoming packet if the number of broadcast
packet in queue is over the threshold.
0: disable
P(0)
30
1[4]
2[4]
LDPS_DIS
Disable link down power saving mode
0: enable link down power saving mode (default)
1: disable link down power saving mode
P(0)
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IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
30
MII
1[5]
ROM
2[5]
30
1[3:2]
2[3:2]
R/W
Description
Default
MLT3_DET
Ability for detecting MLT3 (for 10 Mbps switch to 100 Mbps)
0: disable MLT3 detection ability (default)
1: enable MLT3 detection ability.
AGING. Aging time of address table selection
An address tag in hashing table will be removed if this
function is turned on and its aging timer expires.
Aging time
00
no aging
01
10
30s
300s
11
reserved
P(0)
P(1,0)
note
default
30
1[1]
2[1]
MODBCK. Turn on modified back off algorithm
The maximum back off period is limited to 8-slot time if this
function is turned on.
1: turn on, 0: turn off
P(1)
30
1[0]
2[0]
Drop extra long packet
Max forwarded packet length
P(0)
0: 1536 bytes (default)
1: 1552 bytes
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Switch control register 2
30 2[15:10] 5[7:2]
Description
Default
TMODE_SEL. Test mode selection
This function is for testing only. The default value must be
adopted for normal operation.
6’b0
P(1)
30
2[9]
5[1]
30
2[8]
5[0]
MDI_MDIX_EN. Auto MDIMDIX enable
1: Auto MDIMDIX (default)
0: fixed MDI
Note: IP178C always uses a MDIX transformer.
Reserved
30
2[7]
4[7]
Reserved
1’b0
30
2[6]
4[6]
MAC_MODE_EN.
External MAC mode
1: MAC mode
0: PHY mode
P(0)
30
2[5]
4[5]
RMII_EN.
External MII mode
1: RMII
0: MII
P(0)
30
2[4:3]
4[4:3]
30
2[2:1]
4[2:1]
30
2[0]
4[0]
OP1
OP0
P(0,0)
P(0,0)
BI_COLOR
P(0)
OP1
OP0
FORCE_
MODE
0 0
x
0
Port1, 3, 5, 7 nway with all capability
1 0
1 1
x
x
0
0
Port7 full duplex, port1, 3, 5 nway with all capability
Port7 half duplex, port1, 3, 5 nway with all capability
x
0 0
0
Port0, 2, 4, 6 nway with all capability
x
1 0
0
Port6 full duplex, port0, 2, 4 nway with all capability
x
1 1
0
Port6 half duplex, port0, 2, 4 nway with all capability
Description
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Copyright © 2004, IC Plus Corp.
P(0)
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Tag register 1~9
30
3
7,6
Description
Default
VLAN_TAG_0. Port0 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 0.
30
4
9,8
VLAN_TAG_1. Port1 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 1.
30
5
11,10
VLAN_TAG_2. Port2 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 2.
30
6
13, 12
VLAN_TAG_3. Port3 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 3.
30
7
15, 14
VLAN_TAG_4. Port4 default VALN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 4.
30
8
17, 16
VLAN_TAG_5. Port5 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 5.
30
9
19, 18
30
10
21, 20
30
11
23, 22
VLAN_TAG_6. Port6 default VLAN tag value
16’h01
This register defines the VLAN tag of an un-tagged packet
from port 6.
VLAN_TAG_7. Port7 default VLAN tag value
16’h02
This register defines the VLAN tag of an un-tagged packet
from port 7.
VLAN_TAG_8. MII0 default VLAN tag value
16’h02
This register defines the VLAN tag of an un-tagged packet
from MII port.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
Tag register 10
30 12[8:0] 25[0],
24[7:0]
R/W
Description
Default
R/W
ADD_TAG. Add VLAN tag
Portx adds a VLAN tag defined in vlan_tag_x to each
outgoing packet
9’h00
Bit 0
1: port0 adds a VLAN tag to each outgoing packet.
0: port0 doesn’t add a VLAN tag.
Bit 1
1: port1 adds a VLAN tag to each outgoing packet.
0: port1 doesn’t add a VLAN tag.
Bit 2
1: port2 adds a VLAN tag to each outgoing packet.
0: port2 doesn’t add a VLAN tag.
Bit 3
1: port3 adds a VLAN tag to each outgoing packet.
0: port3 doesn’t add a VLAN tag.
1: port4 adds a VLAN tag to each outgoing packet.
0: port4 doesn’t add a VLAN tag.
Bit 4
Bit 5
Bit 6
Bit 7
Bit 8
1: port5 adds a VLAN tag to each outgoing packet.
0: port5 doesn’t add a VLAN tag.
1: port6 adds a VLAN tag to each outgoing packet.
0: port6 doesn’t add a VLAN tag.
1: port7 adds a VLAN tag to each outgoing packet.
0: port7 doesn’t add a VLAN tag.
1: MII adds a VLAN tag to each outgoing packet.
0: MII doesn’t add a VLAN tag.
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IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
Tag register 11
30 13[12:4] 27[4:0]
26[7:4]
R/W
R/W
Description
Default
REMOVE_TAG. Remove VLAN tag
1: port0 removes the VLAN tag of each outgoing packet.
Bit 0
9’h00
0: port0 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 1
1: port1 removes the VLAN tag of each outgoing packet.
0: port1 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 2
1: port2 removes the VLAN tag of each outgoing packet.
0: port2 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 3
1: port3 removes the VLAN tag of each outgoing packet.
0: port3 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 4
1: port4 removes the VLAN tag of each outgoing packet.
0: port4 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 5
1: port5 removes the VLAN tag of each outgoing packet.
0: port5 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 6
1: port6 removes the VLAN tag of each outgoing packet.
0: port6 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 7
1: port7 removes the VLAN tag of each outgoing packet.
0: port7 doesn’t remove the VLAN tag of each outgoing
packet.
Bit 8
1: MII removes the VLAN tag of each outgoing packet.
0: MII doesn’t remove the VLAN tag of each outgoing
packet.
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Tag VLAN register 1
30
13[3]
26[3]
30
13[2:0]
26[2:0]
Description
Default
TAG_VLAN_EN. Enable tag VLAN function
1: enable tag VLAN function
0: disable tag VLAN function
1’b0
VID_SEL. VID index selection
3’b000
Select 4 bits out of 12 bits VID as index of tag VLAN groups.
The 12 bits of VID can’t be all zeros; otherwise, it will be
handled as an un-tagged frame.
000: VID[3:0], 001: VID[4:1], 010: VID[5:2], 011: VID[6:3],
100: VID[7:4], 101: VID[8:5], 110: VID[9:6], 111: VID[10:7]
An example of vid_sel = 3’b000,
VLAN_0
VID[3:0] = 4’b0000
VLAN_1
VID[3:0] = 4’b0001
VLAN_2
VID[3:0] = 4’b0010
VLAN_3
VID[3:0] = 4’b0011
….
….
VLAN_e
VLAN_f
VID[3:0] = 4’b1110
VID[3:0] = 4’b1111
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IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Tag VLAN register 2
30 14[8:0]
29[0]
28[7:0]
Description
Default
TAG_VLAN_MASK_0[8:0].
Tag VLAN 0 output port mask The mask is valid only if MII
register 13.3 TAG_VLAN_EN is logic high and VID index is
4’b0000.
When IP178C receives a packet, it examines the VID index to
choose a tag VLAN mask and forwards the packets according
the MAC address table and the mask.
9’h1ff
Bit0
1: port 0 belongs to VLAN 0
0: port 0 doesn’t belong to VLAN 0
Bit1
1: port 1 belongs to VLAN 0
0: port 1 doesn’t belong to VLAN 0
Bit2
1: port 2 belongs to VLAN 0
0: port 2 doesn’t belong to VLAN 0
Bit3
1: port 3 belongs to VLAN 0
0: port 3 doesn’t belong to VLAN 0
Bit4
1: port 4 belongs to VLAN 0
0: port 4 doesn’t belong to VLAN 0
Bit5
1: port 5 belongs to VLAN 0
0: port 5 doesn’t belong to VLAN 0
Bit6
1: port 6 belongs to VLAN 0
0: port 6 doesn’t belong to VLAN 0
1: port 7 belongs to VLAN 0
0: port 7 doesn’t belong to VLAN 0
Bit7
Bit8
1: MII port belongs to VLAN 0
0: MII port doesn’t belong to VLAN 0
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Tag VLAN register 3~17
30
15[8:0] 31[0],
30[7:0]
Description
Default
TAG_VLAN_MASK_1[8:0]. Tag VLAN 1 output port mask
9’h17f
33[0],
32[7:0]
35[0],
34[7:0]
TAG_VLAN_MASK_2[8:0]. Tag VLAN 2 output port mask
9’h180
TAG_VLAN_MASK_3[8:0]. Tag VLAN 3 output port mask
9’h1ff
37[0],
36[7:0]
39[0],
38[7:0]
TAG_VLAN_MASK_4[8:0]. Tag VLAN 4 output port mask
9’h1ff
TAG_VLAN_MASK_5[8:0]. Tag VLAN 5 output port mask
9’h1ff
20[8:0]
41[0],
40[7:0]
TAG_VLAN_MASK_6[8:0]. Tag VLAN 6 output port mask
9’h1ff
21[8:0]
43[0],
42[7:0]
TAG_VLAN_MASK_7[8:0]. Tag VLAN 7 output port mask
9’h1ff
22[8:0]
45[0],
44[7:0]
TAG_VLAN_MASK_8[8:0]. Tag VLAN 8 output port mask
9’h1ff
23[8:0]
47[0],
46[7:0]
TAG_VLAN_MASK_9[8:0]. Tag VLAN 9 output port mask
9’h1ff
24[8:0]
49[0],
48[7:0]
TAG_VLAN_MASK_A[8:0]. Tag VLAN a output port mask
9’h1ff
25[8:0]
51[0],
50[7:0]
TAG_VLAN_MASK_B[8:0]. Tag VLAN b output port mask
9’h1ff
26[8:0]
53[0],
52[7:0]
TAG_VLAN_MASK_C[8:0]. Tag VLAN c output port mask
9’h1ff
27[8:0]
55[0],
54[7:0]
TAG_VLAN_MASK_D[8:0]. Tag VLAN d output port mask
9’h1ff
28[8:0]
57[0],
56[7:0]
TAG_VLAN_MASK_E[8:0]. Tag VLAN e output port mask
9’h1ff
29[8:0]
59[0],
58[7:0]
TAG_VLAN_MASK_F[8:0]. Tag VLAN f output port mask
9’h1ff
16[8:0]
17[8:0]
18[8:0]
19[8:0]
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October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Router control register 1
30
30[11]
61[3]
30[10:8] 61[2:0]
Description
Default
ROUTER_EN.
Enable router function at MII port
1: SMART MAC enabled.
0: SMART MAC disabled.
1’b0
LAN_GROUPS[2:0].
3’b001
Number of VLAN groups of LAN ports in a router application
It defines the VLANs used by LAN ports. Each VLAN should
contain MII port.
It is valid only if router_en is enabled.
000: unsupported value
001: 1 VLAN group, (VLAN 1)
010: 2 VLAN groups, (VLAN 1~VLAN 2)
011: 3 VLAN groups, (VLAN 1~VLAN 3)
100: 4 VLAN groups, (VLAN 1~VLAN 4)
101: 5 VLAN groups, (VLAN 1~VLAN 5)
110: 6 VLAN groups, (VLAN 1~VLAN 6)
111: 7 VLAN groups, (VLAN 1~VLAN 7)
30[7:0]
60[7:0]
WAN_PORTS[7:0].
WAN ports for router application
8’h80
It is valid only if router_en is enabled.
Bit0
1: port 0 is a WAN port
0: port 0 is not a WAN port
Bit1
1: port 1 is a WAN port
0: port 1 is not a WAN port
Bit2
1: port 2 is a WAN port
0: port 2 is not a WAN port
Bit3
1: port 3 is a WAN port
0: port 3 is not a WAN port
Bit4
1: port 4 is a WAN port
0: port 4 is not a WAN port
Bit5
1: port 5 is a WAN port
0: port 5 is not a WAN port
Bit6
1: port 6 is a WAN port
0: port 6 is not a WAN port
Bit7
1: port 7 is a WAN port
0: port 7 is not a WAN port
65/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Router control register 2
30 31[8:0] 63[0],
62[7:0]
Description
Default
9’b00
PORT_LOCK_EN[8:0].
Lock port MAC address
1: enable
0: disable
User has to turn off aging function when using the port locking
function. Aging function can be disabled by pulling low pin 76
AGING or programming register 30.1[3:2].
Bit0
Bit1
1: port lock enabled in port 0
0: port lock disabled in port 0
1: port lock enabled in port 1
0: port lock disabled in port 1
Bit2
1: port lock enabled in port 2
0: port lock disabled in port 2
Bit3
1: port lock enabled in port 3
0: port lock disabled in port 3
Bit4
1: port lock enabled in port 4
0: port lock disabled in port 4
Bit5
1: port lock enabled in port 5
0: port lock disabled in port 5
Bit6
1: port lock enabled in port 6
0: port lock disabled in port 6
Bit7
1: port lock enabled in port 7
0: port lock disabled in port 7
Bit8
1: port lock enabled in MII port
0: port lock disabled in MII port
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 0
31
0[10]
65[2]
Port0 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port0 are handled as high
priority packets.
0[9]
65[1]
0[8:0]
65[0],
64[7:0]
1’b0
Port0 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port0 are handled as high priority
packets.
1’b0
Port0 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port0. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port0
0: a port is not in the same VLAN as port0
Bit0, don’t care;
Bit1=1, port 1 and port0 are in the same VLAN;
Bit2=1, port 2 and port0 are in the same VLAN;
Bit3=1, port 3 and port0 are in the same VLAN;
Bit4=1, port 4 and port0 are in the same VLAN;
Bit5=1, port 5 and port0 are in the same VLAN;
Bit6=1, port 6 and port0 are in the same VLAN;
Bit7=1, port 7 and port0 are in the same VLAN;
Bit8=1, MII port and port0 are in the same VLAN;
67/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 1
31
1[10]
67[2]
Port1 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port1 are handled as high
priority packets.
1[9]
67[1]
1[8:0]
67[0],
66[7:0]
1’b0
Port1 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port1 are handled as high priority
packets.
1’b0
Port1 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port1. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port1
0: a port is not in the same VLAN as port1
Bit0=1, port 0 and port1 are in the same VLAN;
Bit1, don’t care;
Bit2=1, port 2 and port1 are in the same VLAN;
Bit3=1, port 3 and port1 are in the same VLAN;
Bit4=1, port 4 and port1 are in the same VLAN;
Bit5=1, port 5 and port1 are in the same VLAN;
Bit6=1, port 6 and port1 are in the same VLAN;
Bit7=1, port 7 and port1 are in the same VLAN;
Bit8=1, MII port and port1 are in the same VLAN;
68/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 2
31
2[10]
69[2]
Port2 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port2 are handled as high
priority packets.
2[9]
69[1]
2[8:0]
69[0],
68[7:0]
1’b0
Port2 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port2 are handled as high priority
packets.
1’b0
Port2 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port2. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port2
0: a port is not in the same VLAN as port2
Bit0=1, port 0 and port2 are in the same VLAN;
Bit1=1, port 1 and port2 are in the same VLAN;
Bit2=1, don’t care;
Bit3=1, port 3 and port2 are in the same VLAN;
Bit4=1, port 4 and port2 are in the same VLAN;
Bit5=1, port 5 and port2 are in the same VLAN;
Bit6=1, port 6 and port2 are in the same VLAN;
Bit7=1, port 7 and port2 are in the same VLAN;
Bit8=1, MII port and port2 are in the same VLAN;
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 3
31
3[10]
71[2]
Port3 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port3 are handled as high
priority packets.
3[9]
71[1]
3[8:0]
71[0],
70[7:0]
1’b0
Port3 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port3 are handled as high priority
packets.
1’b0
Port3 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port3. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port3
0: a port is not in the same VLAN as port3
Bit0=1, port 0 and port3 are in the same VLAN;
Bit1=1, port 3 and port3 are in the same VLAN;
Bit2=1, port 2 and port3 are in the same VLAN;
Bit3=1, don’t care;
Bit4=1, port 4 and port3 are in the same VLAN;
Bit5=1, port 5 and port3 are in the same VLAN;
Bit6=1, port 6 and port3 are in the same VLAN;
Bit7=1, port 7 and port3 are in the same VLAN;
Bit8=1, MII port and port3 are in the same VLAN;
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 4
31
4[10]
73[2]
Port4 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port4 are handled as high
priority packets.
4[9]
73[1]
4[8:0]
73[0],
72[7:0]
1’b0
Port4 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port4 are handled as high priority
packets.
1’b0
Port4 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port4. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port4
0: a port is not in the same VLAN as port4
Bit0=1, port 0 and port4 are in the same VLAN;
Bit1=1, port 1 and port4 are in the same VLAN;
Bit2=1, port 2 and port4 are in the same VLAN; Bit3=1, port 3
and port4 are in the same VLAN;
Bit4=1, don’t care;
Bit5=1, port 5 and port4 are in the same VLAN;
Bit6=1, port 6 and port4 are in the same VLAN;
Bit7=1, port 7 and port4 are in the same VLAN;
Bit8=1, MII port and port4 are in the same VLAN;
71/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 0
31
5[10]
75[2]
Port5 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port5 are handled as high
priority packets.
5[9]
75[1]
5[8:0]
75[0],
74[7:0]
1’b0
Port5 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port5 are handled as high priority
packets.
1’b0
Port5 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port5. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port5
0: a port is not in the same VLAN as port5
Bit0=1, port 0 and port5 are in the same VLAN;
Bit1=1, port 1 and port5 are in the same VLAN;
Bit2=1, port 2 and port5 are in the same VLAN;
Bit3=1, port 3 and port5 are in the same VLAN;
Bit4=1, port 4 and port5 are in the same VLAN;
Bit5=1, don’t care;
Bit6=1, port 6 and port5 are in the same VLAN;
Bit7=1, port 7 and port5 are in the same VLAN;
Bit8=1, MII port and port5 are in the same VLAN;
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 6
31
6[10]
77[2]
Port6 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port6 are handled as high
priority packets.
6[9]
77[1]
6[8:0]
77[0],
76[7:0]
1’b0
Port6 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port6 are handled as high priority
packets.
1’b0
Port6 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port6. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port6
0: a port is not in the same VLAN as port6
Bit0=1, port 0 and port6 are in the same VLAN;
Bit1=1, port 1 and port6 are in the same VLAN;
Bit2=1, port 2 and port6 are in the same VLAN;
Bit3=1, port 3 and port6 are in the same VLAN;
Bit4=1, port 4 and port6 are in the same VLAN;
Bit5=1, port 5 and port6 are in the same VLAN;
Bit6=1, don’t care;
Bit7=1, port 7 and port6 are in the same VLAN;
Bit8=1, MII port and port6 are in the same VLAN;
73/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 7
31
7[10]
79[2]
Port7 Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from port7 are handled as high
priority packets.
7[9]
79[1]
7[8:0]
79[0],
78[7:0]
1’b0
Port7 set to be high priority port
1: enable, 0: disabled (default)
Packets received from port7 are handled as high priority
packets.
1’b0
Port7 VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port7. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as port7
0: a port is not in the same VLAN as port7
Bit0=1, port 0 and port7 are in the same VLAN;
Bit1=1, port 1 and port7 are in the same VLAN;
Bit2=1, port 2 and port7 are in the same VLAN;
Bit3=1, port 3 and port7 are in the same VLAN;
Bit4=1, port 4 and port7 are in the same VLAN;
Bit5=1, port 5 and port7 are in the same VLAN;
Bit6=1, port 6 and port7 are in the same VLAN;
Bit7=1, don’t care;
Bit8=1, MII port and port7 are in the same VLAN;
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Cos and port base VLAN register 8
31
8[10]
81[2]
MII port Class of service enable
1: enable, 0: disabled (default)
Packets with high priority tag from MII port are handled as
high priority packets.
8[9]
81[1]
8[8:0]
81[0],
80[7:0]
1’b0
MII port set to be high priority port
1: enable, 0: disabled (default)
Packets received from MII port are handled as high priority
packets.
1’b0
MII port VLAN look up table
9’h1ff
The register defines the ports in the same VLAN as port8. The
bit 0~8 are corresponding to port 0~8.
1: a port is in the same VLAN as MII port
0: a port is not in the same VLAN as MI port
Bit0=1, port 0 and MII port are in the same VLAN;
Bit1=1, port 1 and MII port are in the same VLAN;
Bit2=1, port 2 and MII port are in the same VLAN; Bit3=1, port
3 and MII port are in the same VLAN;
Bit4=1, port 4 and MII port are in the same VLAN; Bit5=1, port
5 and MII port are in the same VLAN;
Bit6=1, port 6 and MII port are in the same VLAN;
Bit7=1, port 7 and MII port are in the same VLAN;
Bit8=1, don’t care;
75/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
BF_STM_THR_SEL[1:0].
Broadcast storm threshold selection
00: 159 packets/10ms for 100Mbps port, or 159
packets/100ms for 10Mbps port,
01: 127 packets/10ms for 100Mbps port, or 127
packets/100ms for 10Mbps port,
10: 63 packets/10ms for 100Mbps port, or 63 packets/100ms
for 10Mbps port,
11: 31 packets/10ms for 100Mbps port, or 31 packets/100ms
for 10Mbps port
2’b11
9[13:12] 83[5:4]
SHARE_FULL_THR_SEL[1;0].
Share buffer threshold selection
00: 160 units
01: 180 units
10: 140 units
11: 120 units
2’b00
9[11:10] 83[3:2]
UNIT_DEFAULT_THR_SEL[1:0].
Output Queue minimum threshold selection
00: 40 units
01: 32 units
10: 48 units
11: 56 units
UNIT_LOW_THR_SEL
2’b00
UNIT_HIGH_THR_SEL[1;0].
Output Queue Flow control ON threshold selection
If share buffer is over share buffer full threshold, Output Queue
Flow control ON threshold will be dynamic changed to 28.
Others,
00: 50 units
01: 70 units
10: 90 units
11: 110 units
2’b00
Switch control register 3
31 9[15:14] 83[7:6]
9[9:8]
83[1:0]
9[7:6]
82[7:6]
9[5]
82[5]
RESERVED
9[4]
82[4]
9[3:2]
82[3:2]
PREDROP_EN
1: Drop an incoming broadcast packet if any port is
congested.
0: forward an incoming broadcast packet to un-congested
ports instead of congested ports.
PKT_LOW_THR_SEL[1:0].
Packet low water mark threshold selection
00: 40 units
01: 30 units
10: 20 units
11: 10 units
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Copyright © 2004, IC Plus Corp.
2’b00
1
2’b00
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
9[1:0]
ROM
82[1:0]
R/W
Description
PKT_HIGH_THR_SEL[1:0].
Packet high water mark threshold selection
00: 50 units
01: 40 units
10: 30 units
11: 20 units
77/91
Copyright © 2004, IC Plus Corp.
Default
2’b00
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Reserved register (It is for testing only and is not released to users)
31 10[13:12] 85[5:4]
DRIVE[1:0]
31
10[11]
85[3]
BF_STM_EN_QM
0
31
10[10]
85[2]
HP_DIS_FLOW_EN
0
31
10[9]
85[1]
TWOPART
1
ALLPASS
0
PHY PIN RESERVED[2:0]
BYSCR_MODE
0
0
31
10[8]
85[0]
31
31
10[7:5]
10[4]
84[7:5]
84[4]
31
10[3]
84[3]
DIGITAL_LPBK
0
31
10[2]
84[2]
DIGITAL_SPEED_UP
0
31
10[1]
84[1]
SPEED_UP_10
0
31
10[0]
84[0]
F_LINK_100
0
Reserved register (It is for testing only and is not released to users)
31 11[15:0] 87[7:0],
PHY_EEPROM_SETTING_1[15:0]
86[7:0]
16’h0000
31
16’h0000
12[15:0] 89[7:0],
88[7:0]
PHY_EEPROM_SETTING_2[15:0]
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Spanning tree control registers
31 13[15:8]
91
Forward_en
8’hff
13[15]:
1: port7 forwarding enabled; 0: port7 forwarding disabled,
13[14]:
1: port6 forwarding enabled; 0: port6 forwarding disabled,
13[13]:
1: port5 forwarding enabled; 0: port5 forwarding disabled,
13[12]:
1: port4 forwarding enabled; 0: port4 forwarding disabled,
13[11]:
1: port3 forwarding enabled; 0: port3 forwarding disabled,
13[10]:
1: port2 forwarding enabled; 0: port2 forwarding disabled,
13[9]:
1: port1 forwarding enabled; 0: port1 forwarding disabled,
13[8]:
1: port0 forwarding enabled; 0: port0 forwarding disabled,
31
13[7:0]
90
Learning_en
8’hff
13[7]: 1: port7 learning enabled; 0: port7 learning disabled,
13[6]: 1: port6 learning enabled; 0: port6 learning disabled,
13[5]: 1: port5 learning enabled; 0: port5 learning disabled,
13[4]: 1: port4 learning enabled; 0: port4 learning disabled,
13[3]: 1: port3 learning enabled; 0: port3 learning disabled,
13[2]: 1: port2 learning enabled; 0: port2 learning disabled,
13[1]: 1: port1 learning enabled; 0: port1 learning disabled,
13[0]: 1: port0 learning enabled; 0: port0 learning disabled
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Description
Default
Spanning tree registers
31
14
93, 92
31
15
95, 94
static_mac_0[15:0]
static_mac_0[31:16]
16’h0
16’hc200
31
16
97, 96
static_mac_0[47:32]
8’h0180
31
17
99,98
16’h0500
[10]: static_overide_0
1: override the transmission, receiving and learning setting in
MII register 31.13.
0: not override
[9]: static_valid_0
1: the entry is valid
0: the entry is not valid
[8:0]: static_port_mask_0
Bit [8]: forward to port MII
Bit [7]: forward to port 7
Bit [6]: forward to port 6
Bit [5]: forward to port 5
Bit [4]: forward to port 4
Bit [3]: forward to port 3
Bit [2]: forward to port 2
Bit [1]: forward to port 1
Bit [0]: forward to port 0
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
Spanning tree registers
31
18 101,100
Description
Default
static_mac_1[15:0]
16’h0
31
19
103,102
static_mac_1[31:16]
16’h0
31
20
105
static_mac_1[47:32]
16’h0
31
21
107,106
[10]: static_overide_1
16’h0100
1: override the transmission, receiving and learning setting in
MII register 31.13.
0: not override
[9]: static_valid_1
1: the entry is valid
0: the entry is not valid
[8:0]: static_port_mask_1
Bit [8]: forward to port MII
Bit [7]: forward to port 7
Bit [6]: forward to port 6
Bit [5]: forward to port 5
Bit [4]: forward to port 4
Bit [3]: forward to port 3
Bit [2]: forward to port 2
Bit [1]: forward to port 1
Bit [0]: forward to port 0
DSCP register for IPv4/IPv6 DiffServ
31
22 109,108
DSCP[15:0]
16’h0
31
23
111,110
DSCP[31:16]
16’h0
31
31
24
25
113,112
115,114
DSCP[47:32]
DSCP[63:48]
16’h0
16’h0
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
31
26
117,116
R/W
Description
Default
[14:12]: bw_control_p1_tx
[10:8]: bw_control_p1_rx
[6:4]: bw_control_p0_tx
[2:0]: bw_control_p0_rx
16’h0
BW Control Value Setting,
000 : no limit
100 : 1M bit
001 : 128k bit
101 : 2M bit
010 : 256k bit
110 : 4M bit
011 : 512k bit
111 : 8M bi
31
27
119,118
[14:12]: bw_control_p3_tx
[10:8]: bw_control_p3_rx
[6:4]: bw_control_p2_tx
[2:0]: bw_control_p2_rx
16’h0
31
28
121,120
16’h0
31
29
123,122
[14:12]: bw_control_p5_tx
[10:8]: bw_control_p5_rx
[6:4]: bw_control_p4_tx
[2:0]: bw_control_p4_rx
[14:12]: bw_control_p7_tx
[10:8]: bw_control_p7_rx
[6:4]: bw_control_p6_tx
[2:0]: bw_control_p6_rx
31
30
125,124
16’h0
16’h8d00
[15]: bw_en_qm
[14]: stag_en
[13]: diffserv_en
[12]: bf_ffff_only,
1: broadcast DA=FFFFFFFF
0: broadcast DA=FFFFFFFF and multicast frame
[11:8]: special_add_forward
BIT3
Reserved MAC address
(0180C2000010-0180C20000FF)
1: forward (default),
0: discard.
BIT2
Reserved MAC address
(0180C2000002- 0180C200000F)
1: forward (default),
0: discard.
The default value is the inverted value of
pin 78 FILTER_RSV_DA.
BIT1
Reserved MAC address
(0180C2000001)
1: forward,
0: discard (default)
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Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
PHY
MII
ROM
R/W
BIT0
Description
Reserved MAC address (0180C2000000)
1: forward (default),
0: discard
Default
Default value
EXTMII_EN=1
EXTMII_EN =0
1101
{1, inv of pin78 FILTER_RSV_DA(0), 0, 1}
[6:4]: bw_control_p8_tx
[2:0]: bw_control_p8_rx
31
31
127,126
PHY_EEPROM_SETTING_3[15:0]
83/91
Copyright © 2004, IC Plus Corp.
16’h0000
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3
3.1
Electrical Characteristics
Absolute Maximum Rating
Stresses exceed those values listed under Absolute Maximum Ratings may cause permanent damage to
the device. Functional performance and device reliability are not guaranteed under these conditions. All
voltages are specified with respect to GND.
Supply Voltage
Input Voltage
Output Voltage
Storage Temperature
Ambient Operating Temperature (Ta)
3.2
–0.3V to 4.0V
–0.3V to 5.0V
–0.3V to 5.0V
-65°C to 150°C
0°C to 70°C
DC Characteristic
Operating Conditions
Parameter
Supply Voltage
Supply Voltage
Power Consumption
Sym.
VCC
VCC_O
Min.
1.80
3.135
Typ.
1.95
3.3
1.35
Max.
2.05
3.465
Typ.
25
Max.
Unit
V
V
W
Conditions
All ports unlink
100 Mbps full, VCC=1.95V
Input Clock
Parameter
Frequency
Frequency Tolerance
Sym.
Min.
-50
+50
Unit
MHz
PPM
Conditions
Unit
V
V
V
V
Conditions
I/O Electrical Characteristics
Parameter
Input Low Voltage
Input High Voltage
Output Low Voltage
Output High Voltage
Sym.
VIL
VIH
VOL
VOH
Min.
Typ.
2.0
0.4
2.4
84/91
Copyright © 2004, IC Plus Corp.
Max.
0.8
IOH=4mA, VCC_O_x=3.3V
IOL=4mA, VCC_O_x=3.3V
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3.3
3.3.1
AC Timing
PHY Mode MII Timing
a. Transmit Timing Requirements
Symbol
TTxClk
TsTxClk
ThTxClk
Description
Transmit clock period 100 Mbps MII
TXEN, TXD to TXCLK setup time
TXEN, TXD to TXCLK hold time
Min.
Typ.
Max.
Unit
2
0.5
40
-
-
ns
ns
ns
Min.
Typ.
Max.
Unit
1
40
400
-
4
ns
ns
ns
T T xC lk
TXCLK
T hT xC lk
T X E N , T X D [3 :0 ]
T sT xC lk
b. Receive Timing
Symbol
TRxClk
TRxClk
TdRxClk
Description
Receive clock period 100 Mbps MII
Receive clock period 10 Mbps MII
RXCLK falling edge to RXDV, RXD
T RxClk
RXCLK
T dRxClk
RXDV, RXD[3:0]
85/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3.3.2
MAC Mode MII Timing
a. Receive Timing Requirements
Symbol
TRxClk
TsRxClk
ThRxClk
Description
Receive clock period 100 Mbps MII
RXDV, RXD to RXCLK setup time
RXDV, RXD to RXCLK hold time
Min.
Typ.
Max.
Unit
2
0.5
40
-
-
ns
ns
ns
Min.
Typ.
Max.
Unit
1
40
-
4
ns
ns
T R xC lk
RXCLK
T hR xC lk
R X D V , R X D [3 :0 ]
T sR xC lk
b. Transmit Timing
Symbol
TTxClk
TdTxClk
Description
Transmit clock period 100 Mbps MII
TXCLK rising edge to TXEN, TXD
T TxClk
TXCLK
T dTxClk
TXEN, TXD[3:0]
86/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3.3.3
RMII Timing
a. Receive Timing Requirements
Symbol
TClk
TsRxClk
ThRxClk
Description
Clock period
RXDV, RXD to RMII_CLK_IN setup time
RXDV, RXD to RMII_CLK_IN hold time
Min.
Typ.
Max.
Unit
2
0.5
20
-
-
ns
ns
ns
Min.
Typ.
Max.
Unit
1
20
-
4
ns
ns
T C lk
R M II_ C L K _IN
T hR xC lk
R X D V , R X D [1 :0 ]
T sR xC lk
b. Transmit Timing
Symbol
TClk
TdTxClk
Description
Clock period
RMII_CLK_IN rising edge to TXEN, TXD
T Clk
RMII_CLK_IN
T dTxClk
TXEN, TXD[1:0]
87/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3.3.4
SMI Timing
a. MDC/MDIO Timing
Symbol
Tch
Tcl
Tcm
Tmd
Tmh
Tms
Description
MDC High Time
MDC Low Time
MDC period
MDIO output delay
MDIO setup time
MDIO hold time
Min.
Typ.
Max.
Unit
40
40
80
10
10
-
5
-
ns
ns
ns
ns
ns
ns
MDC
T ms
T mh
M D IO
W r ite C yc le
MDC
T cl
T ch
T md
T cm
M D IO
R e a d C yc le
88/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
3.3.5
EEPROM Timing
a.
Symbol
Description
TSCL
TsSCL
ThSCL
Receive clock period
SDA to SCL setup time
SDA to SCL hold time
Min.
Typ.
Max.
Unit
2
0.5
20480
-
-
ns
ns
ns
Min.
Typ.
Max.
Unit
-
20480
-
5200
ns
ns
T SCL
SCL
T hS C L
SDA
T sSCL
R ead data cycle
b.
Symbol
Description
TSCL
TdSCL
Transmit clock period
SCL falling edge to SDA
T SCL
SCL
T dSCL
SDA
Comand cycle
3.4
Thermal Data
Theta Ja
29.1~30.4
Theta Jc
9.3~10.7
Conditions
2 Layer PCB
89/91
Copyright © 2004, IC Plus Corp.
Units
o
C/W
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
4
Order information
Part No.
IP178C
IP178C LF
IP178CH
IP178CH LF
Package
128-PIN PQFP
128-PIN PQFP
128-PIN PQFP
128-PIN PQFP
Notice
Lead free
For fiber applicationFor fiber application
Lead free
90/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09
IP178C
Preliminary Data Sheet
5
Package Detail
128 PQFP Outline Dimensions
HD
D
103
128
E
HE
102
1
65
38
39
64
e
b
A1
c
A2
GAGE
PLANE
Symbol
A1
A2
b
c
HD
D
HE
E
e
L
L1
y
D
L1
Dimensions In Inches
Min.
Nom.
Max.
0.010 0.014 0.018
0.107 0.112 0.117
0.007 0.009 0.011
0.004 0.006 0.008
0.669 0.677 0.685
0.547 0.551 0.555
0.906 0.913 0.921
0.783 0.787 0.791
0.020
0.025 0.035 0.041
0.063
0.004
0
12
L
y
Dimensions In mm
Min.
Nom.
Max.
0.25
0.35
0.45
2.73
2.85
2.97
0.17
0.22
0.27
0.09
0.15
0.20
17.00 17.20 17.40
13.90 14.00 14.10
23.00 23.20 23.40
19.90 20.00 20.10
0.50
0.65
0.88
1.03
1.60
0.10
0
12
Note:
1. Dimension D & E do not include mold protrusion.
2. Dimension B does not include dambar protrusion.
Total in excess of the B dimension at maximum
material condition.
Dambar cannot be located on the lower radius of
the foot.
IC Plus Corp.
Headquarters
10F, No.47, Lane 2, Kwang-Fu Road, Sec. 2,
Hsin-Chu City, Taiwan 300, R.O.C.
TEL: 886-3-575-0275
FAX: 886-3-575-0475
Website: www.icplus.com.tw
Sales Office
4F, No. 106, Hsin-Tai-Wu Road, Sec.1,
Hsi-Chih, Taipei Hsien, Taiwan 221, R.O.C.
TEL: 886-2-2696-1669
FAX: 886-2-2696-2220
91/91
Copyright © 2004, IC Plus Corp.
October 27, 2005
IP178C-DS-R09