88E1118R-NNC2

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Marvell Alaska 88E1118R-NNC2 (Ethernet Controller)[edit | edit source]

Marvel Alaska 88E1118R
As seen on PS3 Slim PCB
righthand side goes to backside RJ/UTP connector

64-pin QFN
Marvel Alaska 88E1118R

Product Brief

productcode meaning:
88E1118R-NNC2 = 10/100/1000BASE-T PHY with RGMII

Type: Ethernet
Speed : 1Gbps
VCC: 1.8V (regulators can be supplied with 1.8V, 2.5V or 3.3V)
I/O: 1.8V, 2.5V or 3.3V
125MHz Clock input
Package : 64-pin QFN

(sorry, no explaination yet)


Pinout 64-pin QFN[edit | edit source]

Pin # Name Pin Type Description
1 CONFIG[1] I Hardware Configuration
2 CONFIG[2] I Hardware Configuration
3 CONFIG[3] I Hardware Configuration
4 CLK125 O 125 MHz Clock Output. When Hardware reset is asserted, a 25 MHz clock is generated output, otherwise a 125 MHz clock is output.
5 DVDD Power Digital core supply - 1.2V. DVDD can be supplied externally with 1.2, or via the 1.2V regulator.
6 LED[0] O LED/Interrupt outputs
7 VDDO Power 1.8V, 2.5V, or 3.3V non-RGMII digital I/O supply. VDDO must be supplied externally. Do not use the 1.8V regulator to power VDDO.
8 LED[1] O LED/Interrupt outputs
9 LED[2] O LED/Interrupt outputs
10 RESETn I Hardware reset. Active low. 0 = Reset 1 = Normal
11 TRSTn I, PU Boundary scan test reset input. Active low. TRSTn contains an internal 150 kohm pull-up resistor as per the 1149.1 specification. After power up, the JTAG state machine should be reset by applying a low signal on this pin, or by keeping TMS high and applying 5 TCK pulses, or by pulling this pin low by a 4.7 kohm resistor.
12 DIS_REG12 I 1.2V Regulator Disable. Tie to VDDO to disable, tie to VSS to enable.
13 DVDD Power Digital core supply - 1.2V. DVDD can be supplied externally with 1.2, or via the 1.2V regulator.
14 AVDDR 1.2V Regulator supply - 1.8V AVDDR can be supplied externally with 1.8V, or via the 1.8V regulator. If the 1.2V regulator is not used, AVDDR must still be tied to 1.8V.
15 AVDDR 1.2V Regulator supply - 1.8V AVDDR can be supplied externally with 1.8V, or via the 1.8V regulator. If the 1.2V regulator is not used, AVDDR must still be tied to 1.8V.
16 AVDDX Power 1.8V Regulator supply - 2.5V, 3.3V, (or 1.8V). AVDDX must be supplied externally. Note that this supply must be the same voltage as AVDDC. If the 1.8V regulator is not used, then it means a 1.8V supply is in the system. AVDDX (along with AVDDC) would be tied to 1.8V in this case.
17 CTRL18 O 1.8V Regulator Control. This signal ties to the base of the BJT. If the 1.8V regulator is not used it can be left floating.
18 NC NC No connect. These pins are not connected to the die so they can be connected to anything on the board.
19 MDIN[3] I/O, D Media Dependent Interface[3]
20 MDIP[3] I/O, D Media Dependent Interface[3]
21 AVDD Power Analog supply. 1.8V. AVDD can be supplied externally with 1.8V, or via the 1.8V regulator.
22 AVDD Power Analog supply. 1.8V. AVDD can be supplied externally with 1.8V, or via the 1.8V regulator.
23 MDIN[2] I/O, D Media Dependent Interface[2]
24 MDIP[2] I/O, D Media Dependent Interface[2]
25 MDIN[1] I/O, D Media Dependent Interface[1]
26 MDIP[1] I/O, D Media Dependent Interface[1]
27 AVDD Power Analog supply. 1.8V. AVDD can be supplied externally with 1.8V, or via the 1.8V regulator.
28 NC NC No connect. These pins are not connected to the die so they can be connected to anything on the board.
29 AVDD Power Analog supply. 1.8V. AVDD can be supplied externally with 1.8V, or via the 1.8V regulator.
30 MDIN[0] I/O, D Media Dependent Interface[0]
31 MDIP[0] I/O, D Media Dependent Interface[0]
32 TSTPT O Test Point
33 RSET I Constant voltage reference. External 4.99 kohm 1% resistor connection to VSS required for each pin.
34 AVDDC Analog supply - 1.8V or 2.5V, or 3.3V. AVDDC must be supplied externally. Do not use the 1.8V regulator to power AVDDC.
35 HSDACN O AC Test Point. Connect the AC testpoints with a 50 ohm termination resistor to VSS for IEEE testing and debug purposes. If debug and IEEE testing are not of importance, these pins can be left floating.
36 HSDACP O AC Test Point. Connect the testpoints with a 50 ohm termination resistor to VSS for IEEE testing and debug purposes. If debug and IEEE testing are not of importance, these pins can be left floating.
37 AVDDC Analog supply - 1.8V or 2.5V, or 3.3V. AVDDC must be supplied externally. Do not use the 1.8V regulator to power AVDDC.
38 XTAL_IN I Reference Clock. 25 MHz ± 50 ppm tolerance crystal reference or oscillator input.

NOTE: If AVDDC is tied to 1.8V, then the XTAL_IN pin is not 2.5V/3.3V tolerant. If AVDDC is tied to 2.5V, then the XTAL_IN pin is not 3.3V tolerant.

39 XTAL_OUT O Reference Clock. 25 MHz ± 50 ppm tolerance crystal reference. When the

XTAL_OUT pin is not connected, it should be left floating.

40 DVDD Power Digital core supply - 1.2V. DVDD can be supplied externally with 1.2, or via the 1.2V regulator.
41 TMS I, PU Boundary scan test mode select input. TMS contains an internal 150 kohm pull-up resistor.
42 TCK I, PU Boundary scan test clock input. TCK contains an internal 150 kohm pull-up resistor.
43 TDI I Boundary scan test data input
44 TDO O Boundary scan test data output
45 MDIO I/O MDIO is the management data. MDIO transfers management data in and out of the device synchronously to MDC. This pin requires a pull-up resistor in a range from 1.5 kohm to 10 kohm.
46 VDDO Power 1.8V, 2.5V, or 3.3V non-RGMII digital I/O supply. VDDO must be supplied externally. Do not use the 1.8V regulator to power VDDO.
47 DVDD Power Digital core supply - 1.2V. DVDD can be supplied externally with 1.2, or via the 1.2V regulator.
48 MDC I MDC is the management data clock reference for the serial management interface. A continuous clock stream is not expected. The maximum frequency supported is 8.3 MHz.
49 RX_CTRL O RGMII Receive Control. RX_DV is presented on the rising edge of RX_CLK. A logical derivative of RX_DV and RX_ER is presented on the falling edge of RX_CLK.
50 RXD[0] O RGMII Receive Data
51 RXD[1] O RGMII Receive Data
52 VDDOR Power 1.8V, 2.5V, or 3.3V RGMII digital I/O supply. VDDOR must be supplied externally. Do not use the 1.8V regulator to power VDDOR.
53 RX_CLK O RGMII Receive Clock provides a 125 MHz, 25 MHz, or 2.5 MHz reference clock with ± 50 ppm tolerance derived from the received data stream depending on speed.
54 RXD[2] O RGMII Receive Data
55 RXD[3] O RGMII Receive Data
56 VDDOR Power 1.8V, 2.5V, or 3.3V RGMII digital I/O supply. VDDOR must be supplied externally. Do not use the 1.8V regulator to power VDDOR.
57 VREF I RGMII input voltage reference. Must be set to VDDOR/2 when used as 1.8V HSTL, 2.5V SSTL_2, and 3.3V. Set to VDDOR when used as 2.5V LV CMOS.
58 TXD[0] I RGMII Transmit Data
59 TXD[1] I RGMII Transmit Data
60 TCX_CLK I RGMII Transmit Clock provides a 125 MHz, 25 MHz, or 2.5 MHz reference clock with ± 50 ppm tolerance depending on speed.
61 TXD[2] I RGMII Transmit Data
62 TXD[3] I RGMII Transmit Data
63 TX_CTRL I RGMII Transmit Control. TX_EN is presented on the rising edge of TX_CLK. A logical derivative of TX_EN and TX_ER is presented on the falling edge of TX_CLK.
64 CONFIG[0] I Hardware Configuration
EPAD VSS GND Ground to device. The 64-pin QFN package has an exposed die pad (E-PAD) at its base. This E-PAD must be soldered to VSS.