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ADSP-BF537 Datasheet(PDF) 11 Page - Analog Devices |
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ADSP-BF537 Datasheet(HTML) 11 Page - Analog Devices |
11 / 68 page ADSP-BF534/ADSP-BF536/ADSP-BF537 Rev. E | Page 11 of 68 | March 2008 In conjunction with the general-purpose timer functions, auto- baud detection is supported. The capabilities of the UARTs are further extended with sup- port for the infrared data association (IrDA ®) serial infrared physical layer link specification (SIR) protocol. CONTROLLER AREA NETWORK (CAN) The ADSP-BF534/ADSP-BF536/ADSP-BF537 processors offer a CAN controller that is a communication controller imple- menting the CAN 2.0B (active) protocol. This protocol is an asynchronous communications protocol used in both industrial and automotive control systems. The CAN protocol is well- suited for control applications due to its capability to communi- cate reliably over a network, since the protocol incorporates CRC checking message error tracking, and fault node confinement. The CAN controller offers the following features: • 32 mailboxes (eight receive only, eight transmit only, 16 configurable for receive or transmit). • Dedicated acceptance masks for each mailbox. • Additional data filtering on first two bytes. • Support for both the standard (11-bit) and extended (29-bit) identifier (ID) message formats. • Support for remote frames. • Active or passive network support. • CAN wake-up from hibernation mode (lowest static power consumption mode). • Interrupts, including: Tx complete, Rx complete, error, global. The electrical characteristics of each network connection are very demanding so the CAN interface is typically divided into two parts: a controller and a transceiver. This allows a single controller to support different drivers and CAN networks. The CAN module represents only the controller part of the interface. The controller interface supports connection to 3.3 V high- speed, fault-tolerant, single-wire transceivers. TWI CONTROLLER INTERFACE The ADSP-BF534/ADSP-BF536/ADSP-BF537 processors include a 2-wire interface (TWI) module for providing a simple exchange method of control data between multiple devices. The TWI is compatible with the widely used I2C ® bus standard. The TWI module offers the capabilities of simultaneous master and slave operation, support for both 7-bit addressing and multime- dia data arbitration. The TWI interface utilizes two pins for transferring clock (SCL) and data (SDA) and supports the protocol at speeds up to 400 kbps. The TWI interface pins are compatible with 5 V logic levels. Additionally, the processor’s TWI module is fully compatible with serial camera control bus (SCCB) functionality for easier control of various CMOS camera sensor devices. 10/100 ETHERNET MAC The ADSP-BF536 and ADSP-BF537 processors offer the capa- bility to directly connect to a network by way of an embedded fast Ethernet Media Access Controller (MAC) that supports both 10-BaseT (10 Mbps) and 100-BaseT (100 Mbps) operation. The 10/100 Ethernet MAC peripheral is fully compliant to the IEEE 802.3-2002 standard, and it provides programmable fea- tures designed to minimize supervision, bus use, or message processing by the rest of the processor system. Some standard features are • Support of MII and RMII protocols for external PHYs. • Full duplex and half duplex modes. • Data framing and encapsulation: generation and detection of preamble, length padding, and FCS. • Media access management (in half-duplex operation): col- lision and contention handling, including control of retransmission of collision frames and of back-off timing. • Flow control (in full-duplex operation): generation and detection of PAUSE frames. • Station management: generation of MDC/MDIO frames for read-write access to PHY registers. • SCLK operating range down to 25 MHz (active and sleep operating modes). • Internal loopback from Tx to Rx. Some advanced features are • Buffered crystal output to external PHY for support of a single crystal system. • Automatic checksum computation of IP header and IP payload fields of Rx frames. • Independent 32-bit descriptor-driven Rx and Tx DMA channels. • Frame status delivery to memory via DMA, including frame completion semaphores, for efficient buffer queue management in software. • Tx DMA support for separate descriptors for MAC header and payload to eliminate buffer copy operations. • Convenient frame alignment modes support even 32-bit alignment of encapsulated Rx or Tx IP packet data in mem- ory after the 14-byte MAC header. • Programmable Ethernet event interrupt supports any com- bination of • Any selected Rx or Tx frame status conditions. • PHY interrupt condition. • Wake-up frame detected. • Any selected MAC management counter(s) at half-full. • DMA descriptor error. • 47 MAC management statistics counters with selectable clear-on-read behavior and programmable interrupts on half maximum value. |
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