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| resources:eval:user-guides:circuits-from-the-lab:cn0417 [22 Jan 2019 07:35] – fix links Robin Getz | resources:eval:user-guides:circuits-from-the-lab:cn0417 [04 Apr 2023 13:51] (current) – update Trisha Cabildo |
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| ===== Overview ===== | ===== Overview ===== |
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| [[adi>CN0417]] is a small USB powered RF power amplifier optimized for 2400 MHz operation. The amplifier typically provides 20 dB of gain through its RF band of operation, boosting signals for various communication protocols such as ISM, MC-GSM, W-CDMA, TD-SCDMA and LTE. It requires 5V USB supply for normal operation. The input and output, both populated with edge mounted SMA connectors, are dc blocked and matched to 50 Ω for ease of use. More information on this board can be found at [[/university/tools/pluto/users/amp|PlutoSDR Amplifier]]. | [[adi>CN0417]] is a small USB-powered RF power amplifier optimized for 2400 MHz operation. The amplifier typically provides 20 dB of gain through its RF band of operation, boosting signals for various communication protocols such as ISM, MC-GSM, W-CDMA, TD-SCDMA, and LTE. It requires a 5V USB supply for normal operation. The input and output, both populated with edge-mounted SMA connectors, are dc blocked and matched to 50 Ω for ease of use. More information on this board can be found at [[/university/tools/pluto/users/amp|PlutoSDR Amplifier]]. |
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| The [[ADI>ADL5606]] is a broadband, two-stage, 1 W RF driver amplifier that operates over a frequency range of 1800 MHz to 2700 MHz. The device can be used in a wide variety of wired and wireless communication protocols, including ISM, MC-GSM, W-CDMA, TD-SCDMA, and LTE. | The [[ADI>ADL5606]] is a broadband, two-stage, 1 W RF driver amplifier that operates over a frequency range of 1800 MHz to 2700 MHz. The device can be used in a wide variety of wired and wireless communication protocols, including ISM, MC-GSM, W-CDMA, TD-SCDMA, and LTE. |
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| The [[ADI>LTM8045]] is an integrated switching DC/DC converter that contains a current mode controller, power switching element, power coupled inductor, power Schottky diode and a modest amount of input and output capacitance. It can be can be configured as a SEPIC or inverting converter by simply grounding the appropriate output rail. | The [[ADI>LTM8045]] is an integrated switching DC/DC converter that contains a current mode controller, power switching element, power coupled inductor, power Schottky diode, and a modest amount of input and output capacitance. It can be configured as a SEPIC or inverting converter by simply grounding the appropriate output rail. |
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| The EVAL-CN0417-EBZ board connects through SMA and is powered by the bus voltage from the USB port.\\ | The EVAL-CN0417-EBZ board connects through SMA and is powered by the bus voltage from the USB port.\\ |
| ==== Test setup ==== | ==== Test setup ==== |
| {{ :resources:eval:user-guides:circuits-from-the-lab:cn0417:10-31-2018_10-51-55_am.png?nolink&600 |}}\\ | {{ :resources:eval:user-guides:circuits-from-the-lab:cn0417:10-31-2018_10-51-55_am.png?nolink&600 |}}\\ |
| - Connect the RF output of the RF signal source to J1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] | |
| - Connect J2 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] to desired DUT or equipment needing the amplifier signal | |
| - Plug in the micro-USB end of the micro-USB cable or power adapter to P1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] | - Plug in the micro-USB end of the micro-USB cable or power adapter to P1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] |
| - Plug the other end of the cable to a power outlet or a PC USB port. | - Plug the other end of the cable into a power outlet or a PC USB port providing at least 500 mA. |
| - An LED light will turn on indicating the board is on and is in operation. | - An LED light will turn on indicating the board is on and is in operation. |
| | - Connect the RF output of the RF signal source to J1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] |
| | - Connect J2 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] to desired DUT or equipment needing the amplifier signal |
| |
| ==== Running the System ==== | ==== Running the System ==== |
| {{ :resources:eval:user-guides:circuits-from-the-lab:cn0417.png?300|}} | {{ :resources:eval:user-guides:circuits-from-the-lab:cn0417.png?300|}} |
| For normal operation, connect: | For normal operation, connect: |
| - Connect the RF output of the Pluto SDR to J1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] | |
| - Connect J2 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] to an antenna (ensure the antenna can dissipate 1W) | |
| - Connect P1 (micro USB) connector of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] into a PC USB port or 5V USB charger. | - Connect P1 (micro USB) connector of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] into a PC USB port or 5V USB charger. |
| - An LED light will turn on indicating the board is on and is in operation. | - An LED light will turn on indicating the board is on and is in operation. |
| | - Connect the RF output of the Pluto SDR to J1 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] |
| | - Connect J2 of the [[adi>CN0417|EVAL-CN0417-EBZ Board]] to an antenna (ensure the antenna can dissipate 1W) |
| |
| ------- | ------- |
| {{:resources:eval:user-guides:circuits-from-the-lab:cn0417:pluto_setup_1.jpg?nolink&900|}} | {{:resources:eval:user-guides:circuits-from-the-lab:cn0417:pluto_setup_1.jpg?nolink&900|}} |
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| We test the [[adi>CN0417|EVAL-CN0417-EBZ Board]] in this configuration, by ensuring the Tx attenuator is set to attenuation of 30dB or more. This ensures the gain of +20dB from the [[adi>CN0417|EVAL-CN0417-EBZ Board]] will not exceed the maximum ratings for the RF Input. | We test the [[adi>CN0417|EVAL-CN0417-EBZ Board]] in this configuration, by ensuring the Tx attenuator is set to an attenuation of 30dB or more. This ensures the gain of +20dB from the [[adi>CN0417|EVAL-CN0417-EBZ Board]] will not exceed the maximum ratings for the RF Input. |
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| Never do this in normal operation. | Never do this in normal operation. |
| <WRAP download> | <WRAP download> |
| * [[ADI>CN0417|CN0417 Circuit Note Page]] | * [[ADI>CN0417|CN0417 Circuit Note Page]] |
| * [[http://www.analog.com/media/en/reference-design-documentation/design-integration-files/CN0417-DesignSupport.zip|CN0417 Design Support Package]] | * [[adi>media/en/reference-design-documentation/design-integration-files/CN0417-DesignSupport.zip|CN0417 Design Support Package]] |
| * [[/university/tools/pluto/users/amp|Test Results]] | * [[/university/tools/pluto/users/amp|Test Results]] |
| * [[ADI>ADL5606|ADL5606 Product Page]] | * [[ADI>ADL5606|ADL5606 Product Page]] |
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| <WRAP round 80% download> | <WRAP round 80% download> |
| [[http://www.analog.com/media/en/reference-design-documentation/design-integration-files/CN0417-DesignSupport.zip|EVAL-CN0417-SDPZ Design & Integration Files]] | [[adi>media/en/reference-design-documentation/design-integration-files/CN0417-DesignSupport.zip|EVAL-CN0417-SDPZ Design & Integration Files]] |
| * Schematics | * Schematics |
| * PCB Layout | * PCB Layout |
| </WRAP> | </WRAP> |
| |
| | =====Registration===== |
| | <WRAP round tip 80% > |
| | Receive software update notifications, documentation updates, view the latest videos, and more when you register your hardware. [[reg>EVAL-CN0417-EBZ?&v=RevC|Register]] to receive all these great benefits and more! |
| | </WRAP> |
| | |
| | //End of Document// |
