Stackable networking device and method having a switch control circuit
First Claim
1. A dual-speed stackable networking device comprising:
- a first repeater connecting to a port of a first data transfer rate;
a second repeater connecting to a port of a second data transfer rate;
an exchanging unit connected to said first repeater and said second repeater for automatically exchanging packets between said first repeater and said second repeater; and
a switch control circuit (Ln) for enabling/disabling said exchanging unit in response to voltage of an input end and a power status of said exchanging unit, the switch control circuit comprising, means for detecting a power status of said exchanging unit to determine if said exchanging unit is powered-on and setting an output voltage of said switch control circuit to high when said exchanging unit is powered-on and setting said output voltage of said switch control circuit to low when said exchanging unit is powered-off, and means for enabling/disabling said exchanging unit in response to an input voltage of said switch control circuit, the means for enabling/disabling will disable said exchanging unit when said input voltage of said switch control circuit is high.
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Accused Products
Abstract
A switch control circuit is provided in a dual speed stackable networking device for automatically bypassing a faulty exchanging unit and monitoring the voltages of the associated input end and output end to prevent the occurrence of a traffic loop. When a number of dual-speed hubs are arranged in a stack, the output end of the current switch control circuit is coupled to the input end of a switch control circuit of next adjacent dual-speed hub. On the other hand, the output end of the current switch control circuit is coupled to the input end of a switch control circuit of another adjacent dual-speed hub. The switch control circuit includes a detector for detecting the power status of the exchanging unit, a logic unit for controlling the voltages of the input end and the output end. If the exchanging unit is not functioning normally, and the voltage of the output end is set to 0, then the exchanging unit is disabled by the switch control circuit. According to the control of the switch control circuit, each dual speed stackable networking device will be automatically bypassed if it is powered off. The traffic loop can thus be efficiently avoided without having to implement the Spanning Tree Protocol in a CPU.
91 Citations
8 Claims
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1. A dual-speed stackable networking device comprising:
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a first repeater connecting to a port of a first data transfer rate;
a second repeater connecting to a port of a second data transfer rate;
an exchanging unit connected to said first repeater and said second repeater for automatically exchanging packets between said first repeater and said second repeater; and
a switch control circuit (Ln) for enabling/disabling said exchanging unit in response to voltage of an input end and a power status of said exchanging unit, the switch control circuit comprising, means for detecting a power status of said exchanging unit to determine if said exchanging unit is powered-on and setting an output voltage of said switch control circuit to high when said exchanging unit is powered-on and setting said output voltage of said switch control circuit to low when said exchanging unit is powered-off, and means for enabling/disabling said exchanging unit in response to an input voltage of said switch control circuit, the means for enabling/disabling will disable said exchanging unit when said input voltage of said switch control circuit is high. - View Dependent Claims (2, 3, 4, 5)
the means of enabling/disabling said exchanging unit acts in response to a voltage of said input end; and
the switch control circuit includes a logic unit for generating a voltage to said output end in response to a voltage of said input end a voltage of said detecting means.
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4. The dual-speed stackable networking device as claimed in claim 3, wherein said logic unit comprises:
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an AND/OR gate coupled to said input end and said detecting means for generating a voltage signal from said input end and/or said detecting means;
a relay connected to said input end and said output end of said switch control circuit for enabling/disabling the connection between said input end and said output end in response to a voltage signal of said input end a voltage of said detecting means;
wherein said relay is closed when said detecting means detects said switch control circuit is powered-off, and said relay is open when said detecting means detects said switch control circuit is powered-on.
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5. The dual-speed stackable networking device as claimed in claim 3, wherein said logic unit further comprises:
a resistor coupled to said enabling/disabling end for controlling the voltage of said input end inputting to said exchanging unit.
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6. In a dual-speed stackable networking device having a switch control circuit for controlling an exchanging unit, comprising the steps of:
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a. determining if said exchanging unit (Ln) is powered-on;
b. setting an output voltage of said switch control circuit to high when said exchanging unit is power-on and setting said output voltage of said switch control circuit to low when said exchanging unit is powered-off;
c. determining if an input voltage of said switch control circuit is high; and
d. disabling said exchanging unit when said input voltage of said switch control circuit is high. - View Dependent Claims (7, 8)
e. determining if said exchanging unit is functioning normally;
f. enabling said exchanging unit when said exchanging unit when is functioning normally.
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8. The method as claimed in claim 7, wherein following said step (e) further comprising the steps of:
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g. setting an output voltage of said switch control circuit to low when said exchanging unit is not functioning normally; and
h. disabling said exchanging unit.
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Specification