Design & Integration Files
- Bill of Materials
- Gerber Files
- Assembly Drawing
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- EVAL-CN0159-EB1Z ($50.00) Universal Serial Bus USB Cable Isolator Circuit
Особенности и преимущества
- Isolate a USB cable
- Standard USB interface
Области применения и технологии
- Контрольно-измерительные приборы
- Измерение температуры
- Носимая на теле инсулиновая помпа
- Портативный анализатор крови
- Измерение артериального давления неинвазивным способом на основе ЭКГ и фотоплетизмографии
- Измерение артериального давления неинвазивным способом на основе баллистокардиографии и фотоплетизмографии
- Гальваническая изоляция медицинского оборудования и безопасность пациентов
- Оборудование для медико-биологических исследований
- Носимые устройства мониторинга состояния здоровья
- Клинические исследования
- Промышленная автоматика
- Потребительская электроника
- Авиация, космос, оборона
Circuit Function & Benefits
The ADuM4160 is designed primarily as an isolation element for a peripheral USB device. However, there are occasions when it is useful to create an isolated cable function. Several issues must be addressed to use the ADuM4160 for this application. Whereas the buffers on the upstream and downstream sides of the ADuM4160 are the same and capable of driving a USB cable, the downstream buffers must be capable of adjusting speed to a full or low speed peripheral that is connected to it. The upstream connection must act like a peripheral, and the downstream connection must behave like a host.
Unlike the case of building a dedicated peripheral interface where the speed is known and not changed, host applications must adapt to detect whether a low or full speed device has been connected. The ADuM4160 is intended to be hardwired to a single speed via pins; therefore, it works when the peripheral plugged into its downstream side is the correct speed, but it fails when the wrong speed peripheral is attached. The best way to address this is to combine the ADuM4160 with a hub controller.
The upstream side of a hub controller can be thought of as a standard fixed speed peripheral port that can be easily isolated with the ADuM4160, whereas the downstream ports are all handled by the hub controller. However, in many cases, while it is not certifiable as fully USB compliant, a single speed cable is acceptable from a practical standpoint, especially if custom connectors are used so that it cannot be confused with a compliant device. The hub chip can be eliminated, and the design becomes very small and simple.
The ADuM4160 provides an inexpensive and easy way to implement an isolation buffer for medical and industrial peripherals. The challenge that must be met is to use this to create a bus-powered cable isolator by pairing the ADuM4160 with a small isolated dc-to-dc converter such as the ADuM5000. As with isolating any device, the services that the ADuM4160 provides are as follows:
- Directly isolates, in the upstream, the USB D+ and D− lines of a cable.
- Implements an automatic scheme for data flow of control that does not require external control lines.
- Provides medical grade isolation.
- Supports full speed or low speed signaling rates.
- Supports isolated power delivery through the cable.
Figure 1. USB Cable Isolator Circuit
The ADuM4160 isolated cable application has several options for power, bus speed, and ESD/EOS protection that must be determined. Peripheral devices run at one of three speeds, low (1.5 Mbps), full (12 Mbps), and high (480 Mbps). The ADuM4160 does not support high speed operation and blocks handshaking signals that are used to negotiate that speed. High speed mode starts as a full speed configuration; the peripheral requests high speed support through a process called a high speed chirp. The ADuM4160 ignores the high speed chirp; therefore, the request for high speed operation is never passed to the host, and the peripheral automatically continues to work at full speed. This application includes a switch and a single channel isolator that allows the user to select a cable speed of full or low by setting the SPU and SPD pins. This feature is optional if single speed operation is adequate.
Power is provided through the VBUSx pins. The 3.3 V signaling voltage is created by internal 3.3 V regulators at the VDDx pin. The ADuM4160 supports other power configurations that are examined in other circuit notes. In the circuit shown in Figure 1, both the upstream and downstream sides of the ADuM4160 are set to derive power from the VBUSx lines and the internal regulators.
The ADuM4160 has an option to delay application of the upstream pull-up under control of the peripheral. This function is controlled by the PIN input. In this application, the PIN input is shorted high so that the upstream pull-up is applied as soon as peripheral power is applied.
Protection devices are used in this circuit. These were chosen from manufacturers that have a wide variety of components available; the particular components were chosen to allow them to be replaced by 0 Ω shorts, removing them from the circuit. The choice of protection should be reviewed by the designer and can range anywhere from not needing external protection to needing a full complement of transient suppressors and filter elements. The circuit elements included in this application show what type of protection can be used.
When the circuit is functioning, packets are detected and data is shuttled from one side of the isolation barrier to the other. Data shown in Figure 3 and Figure 4 show a typical full speed transaction both as time domain data and as an eye diagram. Features to note in the real-time data are the passive idle state at the start of the packet, which transitions to a driven J, and then the end of packet at the end of the transaction that shows as a single-ended zero state followed by an idle J. It is the automatic flow of control and the handling of these special logic states that make the ADuM4160 chip possible and unique in the marketplace.
The cable design is fully isolated from the upstream data con-nection for transients up to 2.5 kV. Future isoPower® modules will enable full medical 5 kV isolation of cables. The down-stream port is powered by the upstream VBUS1 line. This limits the available power to the application to 500 mA at 5 V, the maximum power available to a standard USB port. This is adequate to run the ADuM5000 with a 100 mA external load. Low, full, and high speed peripherals can be connected to the downstream ports, but the cable must be manually changed between full speed and low speed modes. The design relies on the internal short circuit protection of the ADuM5000 for safety.
The data shown in Figure 3 and Figure 4 are generated as part of the USB-IF qualification process. Figure 3 shows a test data packet from the ADuM4160 upstream port to the host. Areas to note are the leading idle state where the passive resistor network holds an idle J state. The center of the packet is a mix of J and K states. The right side of the packet is an EOP (end of packet) marker, which is a single-ended 0 followed by a driven J, which transitions to an idle J.
Upstream Full Speed Signal Quality Test Reference: USB 2.0 Specification, Section 7.1.11.,Section 188.8.131.52. Upstream Full Speed Rise Time Test Reference: USB 2.0 Specification, Section 7.1.11., Section 184.108.40.206. Upstream Full Speed Fall Time Test Reference: USB 2.0 Specification, Section 7.1.11., Section 220.127.116.11.
Figure 3. Full Speed Test Packet Traffic Driven by the Upstream ADuM4160 Port
A complete design support package for this circuit note can be found at www.analog.com/CN0159-DesignSupport.
Оценивание характеристик и тестирование схем
A USB data port connection with an upstream-downstream data path, the CN0159 Universal Serial Bus (USB) Cable Isolator Circuit Board or equivalent board, two USB cables, and a high speed digital oscilloscope.
Circuit note CN-0159 contains a description of the circuit, a circuit schematic, and a schematic of the test setup. It describes how to perform the testing and obtain the data. Details regarding the CN-0159 USB Cable Isolator Circuit Board, including Gerbers, bill of materials, and other information, is available at www.analog.com/CN0159-DesignSupport. Information regarding the isolator components used in the circuit can be found in the ADuM1100, the ADuM4160, and the ADuM5000 data sheets; the ADuM4160 evaluation board user guide UG-043, and the evaluation board user guide for the 16-lead SOIC and 16-lead QSOP digital isolators, UG-042.
Functional Block Diagram
See Circuit Description section for the schematic and information regarding the described test setup.
|ADUM5000||Isolated DC/DC Converter||
|ADUM4160||Цифровой изолятор Full/Low Speed USB||
|ADUM1100||iCoupler Digital Isolator||
|ADUM3160||Цифровой изолятор Full/Low Speed USB||