LAN8187-JT Standard Microsystems (SMSC), LAN8187-JT Datasheet - Page 31

LAN8187-JT

Manufacturer Part Number

LAN8187-JT

Description

Manufacturer

Standard Microsystems (SMSC)

Datasheet

1.LAN8187-JT.pdf (75 pages)

Specifications of LAN8187-JT

Number Of Receivers

Data Rate

10/100Mbps

Operating Supply Voltage (typ)

3.3V

Package Type

TQFP

Operating Temperature Classification

Commercial

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Mounting

Surface Mount

Pin Count

Operating Temperature (max)

70C

Operating Temperature (min)

Lead Free Status / RoHS Status

Compliant

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Datasheet

SMSC LAN8187/LAN8187i

4.10

4.11

4.12

4.12.1

LED output = active low

The TX_ER, TXD4 and nINT functions share a common pin. There are two functional modes for this

pin, the TX_ER/TXD4 mode and nINT (interrupt) mode. The RXD3 pin is used to select one of these

two functional modes.

The RXD3 pin is latched on the rising edge of the internal reset (nreset) to select the mode. The

system designer must float the RXD3 pin for nINT mode or pull-low with an external resistor (see

Table 4.4, “Boot Strapping Configuration Resistors,” on page

TX_ER/TXD4 mode. The default setting is high (nINT mode).

The PHY ADDRESS bits are latched on the rising edge of the internal reset (nreset). The 5-bit address

word[0:4] is input on the LED1, LED2, LED3, LED4, GPO1 output pins. The default setting is all high

5'b1_1111.

The address lines are strapped as defined in the diagram below. The LED outputs will automatically

change polarity based on the presence of an external pull-down resistor. If the LED pin is pulled high

(by an internal 100K pull-up resistor) to select a logical high PHY address, then the LED output will

be active low. If the LED pin is pulled low (by an external pull-down resistor (see

Strapping Configuration Resistors,” on page

will then be an active high output.

To set the PHY address on the LED pins without LEDs or on the GPO1 or CRS pin, float the pin to

set the address high or pull-down the pin with an external resistor (see

Configuration Resistors,” on page

The Digital I/O pins on the LAN8187/LAN8187i are variable voltage to take advantage of low power

savings from shrinking technologies. These pins can operate from a low I/O voltage of +1.6V up to

+3.6V. Due to this low voltage feature addition, the system designer needs to take consideration as

for two aspects of their design. Boot strapping configuration and I/O voltage stability.

Boot Strapping Configuration.

Due to a lower I/O voltage, a lower strapping resistor needs to be used to ensure the strapped

configuration is latched into the PHY device at power-on reset.

(TX_ER/TXD4)/nINT Strapping

PHY Address Strapping and LED Output Polarity Selection

Variable Voltage I/O

Phy Address = 1

VDDIO

~270 ohms

Figure 4.5 PHY Address Strapping on LED’s

LED1-LED4

~10K ohms

32) to GND to set the address low. See the figure below:

DATASHEET

LED output = active high

32) to select a logical low PHY address, the LED output

Technology

Phy Address = 0

~270 ohms

32) to VSS to set the device in

LED1-LED4

Table 4.4, “Boot Strapping

Revision 1.6 (02-27-09)

Table 4.4, “Boot

LAN8187-JT Standard Microsystems (SMSC), LAN8187-JT Datasheet - Page 31

LAN8187-JT

Specifications of LAN8187-JT

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