KSZ8081RNDCA

The KSZ8081RNDCA is an electronic component from Microchip Technology. View the full KSZ8081RNDCA datasheet below including electrical characteristics, absolute maximum ratings.

Manufacturer

Microchip Technology

Overview

Part: KSZ8081RNA/RND — Microchip Type: 10BASE-T/100BASE-TX Ethernet PHY Transceiver Description: Single-chip 10BASE-T/100BASE-TX IEEE 802.3 compliant Ethernet transceiver with RMII v1.2 interface support, integrated 1.2V regulator, and flexible 1.8V, 2.5V, or 3.3V digital I/O options.

Operating Conditions:

Supply voltage: 3.3V (single supply)
I/O voltage: 1.8V, 2.5V, or 3.3V
Reference clock: 25 MHz or 50 MHz

Absolute Maximum Ratings:

Key Specs:

Ethernet compliance: IEEE 802.3 (10BASE-T/100BASE-TX)
Interface: RMII v1.2
ESD rating (HBM): 6 kV
Crystal input: 25 MHz ±50 ppm (KSZ8081RNA default)
Oscillator/external clock input: 25 MHz ±50 ppm or 50 MHz ±50 ppm (KSZ8081RND default 50 MHz)
REXT resistor: 6.49 kΩ to ground
MDIO/INTRP pull-up resistor: 1.0 kΩ (external)

Features:

RMII back-to-back mode support for 100 Mbps copper repeater
MDC/MDIO management interface
Programmable interrupt output
LED outputs for Link and Activity status
On-chip termination resistors for differential pairs
HP Auto MDI/MDI-X
Auto-Negotiation (10/100 Mbps, Half/Full Duplex)
Power-Down and Power-Saving modes
LinkMD® TDR-Based Cable Diagnostics
Parametric NAND Tree Support
Loopback Modes for Diagnostics
Built-in 1.2V regulator for core

Applications:

Game Consoles
IP Phones
IP Set-Top Boxes
IP TVs
LOM
Printers

Package:

24-pin 4 mm x 4 mm QFN

Features

Single-Chip 10BASE-T/100BASE-TX IEEE 802.3 Compliant Ethernet Transceiver
RMII v1.2 Interface Support with a 50 MHz Reference Clock Output to MAC, and an Option to Input a 50 MHz Reference Clock
RMII Back-to-Back Mode Support for a 100 Mbps Copper Repeater
MDC/MDIO Management Interface for PHY Register Configuration
Programmable Interrupt Output
LED Outputs for Link and Activity Status Indication
On-Chip Termination Resistors for the Differential Pairs
Baseline Wander Correction
HP Auto MDI/MDI-X to Reliably Detect and Correct Straight-Through and Crossover Cable Connections with Disable and Enable Option
Auto-Negotiation to Automatically Select the Highest Link-Up Speed (10/100 Mbps) and Duplex (Half/Full)
Power-Down and Power-Saving Modes
LinkMD ® TDR-Based Cable Diagnostics to Identify Faulty Copper Cabling
Parametric NAND Tree Support for Fault Detection Between Chip I/Os and the Board
HBM ESD Rating (6 kV)
Loopback Modes for Diagnostics
Single 3.3V Power Supply with V DD I/O Options for 1.8V, 2.5V, or 3.3V
Built-In 1.2V Regulator for Core
Available in 24-pin 4 mm x 4 mm QFN Package

Applications

Game Consoles
IP Phones
IP Set-Top Boxes
IP TVs
LOM
Printers

Pin Configuration

FIGURE 2-1: 24-QFN PIN ASSIGNMENT (TOP VIEW)

Electrical Characteristics

T A = 25°C. Specification is for packaged product only.

TABLE 6-1: ELECTRICAL CHARACTERISTICS

Parameters	Symbol	Min.	Typ.	Max.	Units	Note
Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1	Supply Current (V DDIO , V DDA_3.3 = 3.3V), Note 6-1
10BASE-T	I DD1_3.3V	-	41	-	mA	Full-duplex traffic @100% utilization
100BASE-TX	I DD2_3.3V	-	47	-	mA	Full-duplex traffic @100% utilization
EDPD Mode	I DD3_3.3V	-	20	-	mA	Ethernet cable disconnected (Reg. 18h.11 = 0)
Power-Down Mode	I DD4_3.3V	-	4	-	mA	Software power-down (Reg. 0h.11 = 1)
CMOS Level Inputs	CMOS Level Inputs	CMOS Level Inputs	CMOS Level Inputs	CMOS Level Inputs	CMOS Level Inputs	CMOS Level Inputs
Input High Voltage	V IH	2.0	-	-	V	V DDIO = 3.3V
Input High Voltage	V IH	1.8	-	-	V	V DDIO = 2.5V
Input High Voltage	V IH	1.3	-	-	V	V DDIO = 1.8V
Input Low Voltage	V IL	-	-	0.8	V	V DDIO = 3.3V
Input Low Voltage	V IL	-	-	0.7	V	V DDIO = 2.5V
Input Low Voltage	V IL	-	-	0.5	V	V DDIO = 1.8V
Input Current	\	I IN \		-	-	10
CMOS Level Outputs	CMOS Level Outputs	CMOS Level Outputs	CMOS Level Outputs	CMOS Level Outputs	CMOS Level Outputs	CMOS Level Outputs
Output High Voltage	V OH	2.4	-	-	V	V DDIO = 3.3V
Output High Voltage	V OH	2.0	-	-	V	V DDIO = 2.5V
Output High Voltage	V OH	1.5	-	-	V	V DDIO = 1.8V
Output Low Voltage	V OL	-	-	0.4	V	V DDIO = 3.3V
Output Low Voltage	V OL	-	-	0.4	V	V DDIO = 2.5V
Output Low Voltage	V OL	-	-	0.3	V	V DDIO = 1.8V
Output Tri-State Leakage	\	I OZ \		-	-	10
LED Output	LED Output	LED Output	LED Output	LED Output	LED Output	LED Output
Output Drive Current	I LED	-	8	-	mA	LED0 pin
All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)	All Pull-Up/Pull-Down Pins (including Strapping Pins)
Internal Pull-Up Resistance		30	45	73	k Ω	V DDIO = 3.3V
Internal Pull-Up Resistance	pu	39	61	102	k Ω	V DDIO = 2.5V
Internal Pull-Up Resistance		48	99	178	k Ω	V DDIO = 1.8V
Internal Pull-Down Resistance	pd	26	43	79	k Ω	V DDIO = 3.3V
Internal Pull-Down Resistance	pd	34	59	113	k Ω	V DDIO = 2.5V
Internal Pull-Down Resistance	pd	53	99	200	k Ω	V DDIO = 1.8V
100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)	100BASE-TX Transmit (measured differentially after 1:1 transformer)
Peak Differential Output Voltage	V O	0.95	-	1.05	V	100 Ω termination across differential output
Output Voltage Imbalance	V IMB	-	-	2	%	100 Ω termination across differential output
Rise/Fall Time	t r /t f	3	-	5	ns	-
Rise/Fall Time Imbalance	-	0	-	0.5	ns	-
Duty Cycle Distortion	-	-	-	±0.25	ns	-
Overshoot	-	-	-	5	%	-
Output Jitter	-	-	0.7	-	ns	Peak-to-peak

TABLE 6-1: ELECTRICAL CHARACTERISTICS (CONTINUED)

Parameters	Symbol	Min.	Typ.	Max.	Units	Note
10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)	10BASE-T Transmit (measured differentially after 1:1 transformer)
Peak Differential Output Voltage	V P	2.2	-	2.8	V	100 Ω termination across differential output
Jitter Added	-	-	-	3.5	ns	Peak-to-peak
Rise/Fall Time	t r /t f	-	25	-	ns	-
10BASE-T Receive	10BASE-T Receive	10BASE-T Receive	10BASE-T Receive	10BASE-T Receive	10BASE-T Receive	10BASE-T Receive
Squelch Threshold	V SQ	-	400	-	mV	5 MHz square wave
Transmitter - Drive Setting	Transmitter - Drive Setting	Transmitter - Drive Setting	Transmitter - Drive Setting	Transmitter - Drive Setting	Transmitter - Drive Setting	Transmitter - Drive Setting
Reference Voltage of I SET	V SET	-	0.65	-	V	R(I SET ) = 6.49 k Ω
REF_CLK Output	REF_CLK Output	REF_CLK Output	REF_CLK Output	REF_CLK Output	REF_CLK Output	REF_CLK Output
50 MHz RMII Clock Output Jitter	-	-	300	-	ps	Peak-to-peak. Applies only to RMII - 25 MHz Clock Mode.
100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters	100 Mbps Mode - Industrial Applications Parameters
Link Loss Reaction (Indication) Time	t llr	-	4.4	-	μ s	Link loss detected at receive differential inputs to PHY signal indication time for each of the following: 1. For LED mode 01, Link LED output changes from low (link-up) to high (link-down). 2. INTRP pin asserts for link-down status change.

Note 6-1 Current consumption is for the single 3.3V supply KSZ8081RNA/RND device only, and includes the transmit driver current and the 1.2V supply voltage (V DD_1.2 ) that are supplied by the KSZ8081RNA/ RND.

Absolute Maximum Ratings

(V DD_1.2 )....................................................................................................................................................-0.5V to +1.8V
(V DDIO , V DDA_3.3 ) ......................................................................................................................................-0.5V to +5.0V
Input Voltage (all inputs)............................................................................................................................-0.5V to +5.0V
Output Voltage (all outputs).......................................................................................................................-0.5V to +5.0V
Lead Temperature (soldering, 10s) .......................................................................................................................+260°C
Storage Temperature (T S )......................................................................................................................-55°C to +150°C

*Exceeding the absolute maximum rating may damage the device. Stresses greater than the absolute maximum rating may cause permanent damage to the device. Operation of the device at these or any other conditions above those specified in the operating sections of this specification is not implied. Maximum conditions for extended periods may affect reliability.

Package Information

Note: For the most current package drawings, please see the Microchip Packaging Specification located at http://www.microchip.com/packaging

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
KSZ8081	Microchip Technology	—
KSZ8081MLX	Microchip Technology	48-pin 7 mm x 7 mm LQFP
KSZ8081RNA	Micrel Inc.	—
KSZ8081RNA/RND	Microchip Technology	—
KSZ8081RNACA	Microchip Technology	24-VFQFN Exposed Pad
KSZ8081RNAIA	Microchip Technology	—
KSZ8081RNB	Microchip Technology	32-Pin QFN
KSZ8081RND	Micrel Inc.	—

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