KR101679427B1 - Modem - Google Patents

Abstract

The RF signal processing unit demodulates the baseband signal received from the RF signal processing unit to generate a data signal, modulates the data signal, and outputs the baseband signal to the RF signal processing unit. And an interface unit for transmitting and receiving the data signal through an SDIO (Secure Digital Input / Output) slot of the host device.

Description

Modem {MODEM}

The present invention relates to a modem having an SDIO (Secure Digital Input / Output) interface, and more particularly, to a modem having a SDIO And an SDIO interface for allowing the host device to recognize the modem stably.

A wireless modem, which is a data communication device for relaying wireless data in order to interoperate with a broadband wireless communication network having the characteristics of high-capacity / high-speed data transmission, generally uses a PC card or a USB (Universal Serial Bus) Such as a modem function that enables a computer terminal to be connected to a wireless Internet network and a function of transmitting / receiving a short message service, which are connected to a host device (e.g., a notebook computer or a personal computer) Function.

When such a wireless modem is installed in the host device, the host device scans a new peripheral device linked to the interface to recognize the device. In this case, the conventional modem is set to boot the modem at the same time power is supplied to the modem. When power is supplied to the modem, a TCXO (Temperature Compensated Crystal Oscillator) that generates a reference clock frequency of the modem starts to oscillate. In order for the TCXO to stably generate the reference clock frequency, it is required that a predetermined time elapses from the time when the oscillation starts. However, when the modem is booted before the TCXO stably generates the reference clock frequency, the waveform of the reference clock frequency is distorted, so that the host device can not stably recognize the modem. Accordingly, the user has to repeatedly reboot the modem in order to allow the host device to recognize the modem.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide an interface capable of data communication with an SDIO slot of a host device and boot the modem after a reference clock frequency of the modem is stably generated using a delay element And it is an object of the present invention to provide a modem having an SDIO interface which enables a host device to stably recognize a modem.

The modem according to an exemplary embodiment of the present invention includes an RF signal processing unit for performing frequency conversion between an RF signal and a baseband signal, a demodulation unit for demodulating the baseband signal received from the RF signal processing unit to generate a data signal, A baseband signal processing unit for outputting a baseband signal to the RF signal processing unit, and an interface unit for transmitting and receiving the data signal.
According to an embodiment of the present invention, the modem may further include a delay element electrically coupled to a reset terminal provided in the interface unit.
According to an embodiment of the present invention, the interface unit can transmit / receive the data signal through an SDIO (Secure Digital Input / Output) slot of the host device.

According to an embodiment of the present invention, the RF signal processing unit frequency downconverts an RF signal and transmits the down-converted RF signal to the baseband signal processing unit, frequency up-converts the baseband signal received from the baseband signal processing unit, .

According to an embodiment of the present invention, the RF signal processing unit may include an antenna electrically coupled to the RF signal processing unit to transmit and receive an RF signal.

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According to an embodiment of the present invention, the delay element may apply the power source voltage to the reset terminal after a predetermined time has elapsed from when a power source voltage is applied to a power source terminal provided in the interface unit.

According to an embodiment of the present invention, the predetermined time may be a time required for generating a reference clock frequency by a TCXO (Temperature Compensated Crystal Oscillator) provided in the baseband signal processing unit.

According to the present invention having the above-described configuration, it is possible to provide an interface unit capable of performing data communication in cooperation with an SDIO slot of a host device. When a power is supplied to the modem, the reference clock frequency of the modem is stabilized It is possible to improve the modem recognition rate of the host device.

1 is a block diagram illustrating a configuration of a modem having an SDIO interface according to an embodiment of the present invention.
2 is a diagram illustrating a signal waveform of an SDIO slot of a notebook equipped with a modem having an SDIO interface according to an embodiment of the present invention.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings. Wherein like reference numerals refer to like elements throughout.

1 is a block diagram illustrating a configuration of a modem having an SDIO interface according to an embodiment of the present invention.

1, a modem 100 having an SDIO interface according to the present invention includes an RF signal processing unit 110, a baseband signal processing unit 120, an interface unit 130, a delay element 140, an antenna 150 ).

The RF signal processing unit 110 performs frequency conversion between a radio frequency (RF) signal and a baseband signal. The baseband signal processing unit 120 includes a RF receiver for receiving an RF signal from the antenna 150 and downconverting the frequency of the received RF signal to output a baseband signal, Lt; RTI ID = 0.0 > RF < / RTI > The RF signal processor 110 may include a duplexer. The duplexer is a kind of switching unit. When the RF signal is received through the antenna 150, the RF signal processor 110 transmits an RF signal to the RF receiver. And transmits the RF signal to the antenna 150 so as to be radiated.

The RF receiver includes a low noise amplifier (LNA), a band pass filter (BPF), a mixer, a phase locked loop (PLL) IF mixer, IF phase synchronizing circuit, and the like may be additionally included.

The low noise amplifier suppresses and amplifies the RF signal received from the antenna by suppressing a noise component, and the band pass filter filters mixed signals generated in the amplification process to pass only a signal of a desired frequency band. The mixer mixes an RF signal input from the band-pass filter with a carrier frequency provided from the phase-locked loop to perform a frequency down conversion to output an IF signal or a baseband signal. When the IF signal is output, the frequency is down-converted again through the IF mixer to output the baseband signal.

The RF transmitter includes a power amplifier (PAM), a band pass filter (BPF), a mixer, and a phase locked loop (PLL) And may further include a phase synchronization circuit.

The baseband signal input from the baseband signal processing unit 120 is subjected to frequency up conversion in an IF mixer, and an IF signal is generated through an IF band pass filter. The mixer mixes an IF signal input from the IF band pass filter with a carrier frequency provided from the phase locked loop circuit, performs frequency up conversion to output an RF signal, and the RF signal is removed through a band- And the power amplifier amplifies the RF signal to a sufficient magnitude and transmits the amplified RF signal to the antenna.

The baseband signal processing unit 120 includes a low pass filter (LPF), an analog / digital signal converter, a modulator and the like. The baseband signal processing unit 120 demodulates the baseband signal received from the RF signal processing unit 110 to generate a data signal. And demodulates the data signal to transmit the baseband signal to the RF signal processor. The baseband signal processing unit 120 modulates and demodulates a baseband signal, generates a gain control signal by sensing the strength of the signal, and adjusts the signal strength by transmitting the gain control signal to a low noise amplifier or a power amplifier .

The interface unit 130 performs a function of transmitting and receiving data in cooperation with an SDIO slot provided in a host device (for example, a computer terminal such as a notebook PC or a PC). That is, the data signal demodulated and output by the baseband signal processor 120 is transmitted to the host device, or the data signal is received from the host device and is transmitted to the baseband signal processor 120.

The delay element 140 is electrically coupled to the reset terminal of the interface unit 130. The delay element 140 receives a power voltage from an SD_VDD terminal, which is a power terminal of an SDIO slot of a host device (for example, a notebook computer, a PC, or the like) And applies the voltage to the reset terminal after elapsing. The predetermined time is a time (for example, 2 ms) required to stably generate a reference clock frequency by a TCXO (Temperature Compensated Crystal Oscillator) provided in the baseband signal processing unit 120, It depends on the characteristics of TCXO.

The modem 100 having the above-described configuration according to the present invention can be implemented as a removable external modem that can be applied to the SDIO slot of the host device. The RF signal processing unit 110, the baseband signal processing unit 120 and the antenna 150 may be formed as a single module having an SIP (System In Package) structure and may be provided in the modem 100, 100) may be implemented in the form of an SD card. In addition, the modem 100 performs wireless data communication, and performs wireless data communication according to one of a communication protocol such as Wibro or WiMAX.

When the modem 100 having the SDIO interface is mounted in a host device such as a notebook PC, a power supply voltage is received from the SD_VDD terminal of the host device.

The power supply terminal 131 and the reset terminal 132 of the interface unit 130 are electrically coupled to the SD_VDD terminal by the modem 100 being mounted on the host device. A power supply voltage is applied from the SD_VDD terminal to the power supply terminal 131 to supply power to the modem 100. When the modem 100 is mounted on the host device, the delay element 140 is also electrically coupled to the SD_VDD terminal. The delay element 140 receives the power supply voltage from the SD_VDD terminal and outputs the voltage to the reset terminal after a predetermined time has elapsed from the application of the power supply voltage.

When a power supply voltage is applied from the SD_VDD terminal to the power supply terminal 131, the TCXO included in the baseband signal processor 120 generates a reference clock frequency. The TCXO starts oscillating to generate a reference clock frequency stably It takes a certain amount of time. The delay element 140 applies the power source voltage to the reset terminal 132 after a predetermined time elapses from when the power source voltage is applied to the power source terminal 131, Corresponds to the time required to oscillate and stably generate the reference clock frequency. When the power supply voltage is applied to the reset terminal 132 from the delay element 140 after the predetermined time elapses, the modem 100 boots up. At this time, the baseband signal processor 120 generates a device recognition signal And transmits the device recognition signal to the host device through the interface unit. The host device that has received the device recognition signal scans peripheral devices that are interfaced with an interface such as a USB port, an SDIO slot, and the like to recognize the device. On the other hand, when the apparatus recognition signal is generated before the TCXO stably generates the reference clock frequency, the reference clock frequency or the apparatus recognition signal is distorted so that the host apparatus can not stably recognize the modem 100 Lt; / RTI > Therefore, the power supply voltage must be sequentially applied to the power supply terminal 131 and the reset terminal 132 using the delay element 140, so that the host device can stably recognize the modem 100 .

When the host device recognizes the modem 100, the modem 100 demodulates and demodulates the data signals transmitted and received through the interface unit 130 in the baseband signal processing unit 120 and outputs the demodulated data signals to the RF signal processing unit 110 Frequency up / down conversion to perform wireless data communication according to a communication protocol of either Wibro or Wiimax.

2 is a diagram illustrating a signal waveform of an SDIO slot of a notebook equipped with a modem having an SDIO interface according to an embodiment of the present invention.

2 shows a signal waveform of an SD_VDD terminal of an SDIO slot of a notebook equipped with a modem 100 having an SDIO interface according to the present invention. A power supply voltage is applied from the SD_VDD terminal to the power supply terminal 131 and the reset terminal 132. Reference numeral 210 denotes a signal waveform of the power supply terminal 131. Reference numeral 220 denotes a signal waveform of the reset terminal 132 Fig.

As shown in FIG. 2, a power supply voltage is applied to the reset terminal 132 after a predetermined time (Delay time) elapses from when the power supply voltage is applied to the power supply terminal 131. The power supply voltage is sequentially applied to the power supply terminal 131 and the reset terminal 132 using the delay element 140 so that the host device can recognize the modem 100 stably.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the scope of protection of the present invention should be determined by the following claims, as well as equivalents thereof.

100: modem 110: RF signal processor
120: baseband signal processing unit 130: interface unit
131: power terminal 132: reset terminal
140: delay element 150: antenna

Claims (7)

An RF signal processor for performing frequency conversion between the RF signal and the baseband signal;
A baseband signal processor for generating a data signal by demodulating a baseband signal received from the RF signal processor, modulating a data signal, and outputting a baseband signal to the RF signal processor;
An interface unit including a power supply terminal and a reset terminal and transmitting and receiving the data signal; And
And a delay element electrically coupled to the reset terminal,
The delay element includes:
Wherein the power supply voltage is applied to the reset terminal after a predetermined time period from when the power supply voltage is applied to the power supply terminal to when the reference clock frequency of the modem is generated.
delete The method according to claim 1,
The interface unit transmits / receives the data signal through an SDIO (Secure Digital Input / Output) slot of the host device.
The method according to claim 1,
The RF signal processing unit
A frequency down conversion of the RF signal to the baseband signal processor, or a frequency up conversion of the baseband signal received from the baseband signal processor.
The method according to claim 1,
And an antenna electrically coupled to the RF signal processing unit to transmit and receive an RF signal.
delete The method according to claim 1,
The predetermined time may be,
Wherein the TCXO (Temperature Compensated Crystal Oscillator) included in the baseband signal processing unit is a time required for generating the reference clock frequency.

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