Alereon AL5621 AL5621 PCB RADIO MODULE User Manual UG AL5621 EVB Rev2 0
Alereon, Inc AL5621 PCB RADIO MODULE UG AL5621 EVB Rev2 0
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Users Guide
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| Document ID | 953292 |
| Application ID | MAYjOvK2nt005CurFAFN3A== |
| Document Description | Users Guide |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 160.57kB (2007077 bits) |
| Date Submitted | 2008-06-09 00:00:00 |
| Date Available | 2008-09-03 00:00:00 |
| Creation Date | 2002-04-18 09:02:05 |
| Producing Software | Acrobat Distiller 8.0.0 (Windows) |
| Document Lastmod | 2008-03-03 11:33:30 |
| Document Title | UG-AL5621_EVB_Rev2.0.fm |
| Document Creator | FrameMaker 7.2 |
| Document Author: | dwarren |
USER GUIDE AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide INTRODUCTION The AL5621 PCB Radio module is a complete compact device radio reference design that enables quick design of UWB enabled products. The AL5621 combines the Alereon AL5000 chipset along with on board power supplies, an antenna output, and three different system interfaces. 1.0 REFERENCE DESIGN FEATURES Optimized Performance with AL5100 (3.1GHz to 10.6GHz) All Worldwide Bands. Complete Baseband Processor (BBP) and Media Access Controller (MAC) High Precision Data Path and Data Converters allowing reliable link at extended ranges Fully Integrated MAC Protocol Engine Supports All Industry Standards WiMedia Protocols — Certified Wireless USB — WiMedia Link Layer Protocol — Bluetooth 3.0 (supported by future SW releases) Industry Standard Interfaces — ULPI 1.1 Interface: 8-Bit / 12 Pins for USB 2.0 PHYs — CF+ 3.0 / Generic Parallel Interface: 8 & 16-Bits — SDIO 1.1 Interface 1-Bit and 4-Bit Modes — UART interface for Cable Associate function Operates from a single (+3.3 V, regulated) supply Small Form Factor (38.46 x 27.18 mm) (1.5 x 1 in) 3 GPIO lines for LEDs or additional control signals Figure 1. AL5621 Worldwide Radio Card Rev. 2.0 – Mar 2008 Confidential Release Under Alereon NDA AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide C3 U1 R1 X1 U3 C1 U2 C4 BPF1 J1 User Guide R6 R5 C6 X2 R3 U5 C5 U6 U7 R4 C7 R2 L2 J2 U4 C2 L1 R7 R9 U8 R10 U9 R11 R12 R13 C8 R8 C9 C10 C12 C13 C11 R17 R18 R14 R16 C14 R15 R19 R20 U10 C15 C16 R23 R21 R24 R22 SHLD1 Figure 2. Design Overview - Top Side R26 C20 C21 C19 R31 C18 R28 R41 R46 C43 R47 C38 R29 R39 R49 C41 C34 C39 R48 C32 R37 R34 C33 C36 C37 Q2 C30 R45 C42 R44 R43 C40 C35 C26 Q1 R40 R33 C31 C29 R42 L3 C28 C27 C25 C24 C23 R36 R38 R35 R32 R30 C17 C22 R27 R25 C44 J3 Figure 3. Design Overview - Bottom Side Rev. 2.0 User Guide 2.0 AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide BLOCK DIAGRAM Host Interface Connectors (+3.3 V) (Control) (ULPI) (SDIO) (CF+) (GPIO) (Reset) Control Signals Application Interface GPIO U.FL AL5300 BBP/MAC AL5100 RF Transceiver BDF Reset Flash Memory 20 MHz Power up Reset 44 MHz +2.4 V +1.2 V +3.3 V Figure 4. AL5621 Block Diagram 3.0 USER I/O INTERFACE HEADERS ULPI / SDIO / CF+ (BASE MOTHERBOARD CONNECTIONS) Rev. 2.0 AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide 4.0 DESIGN CONSIDERATIONS 4.1 Power User Guide One +3.3 V power supply at max data rate average current of 500 mA with peak at 750 mA. 4.2 Board Reset During power up, an "on board" power monitor holds the board Reset for approximately 150 ms. The card can also be reset at any time by asserting the "Card_Reset#" signal low. It is also important to note that the Mode Pins HSTIF_SEL_0 & HSTIF_SEL_1 are sampled on the rising edge of Card_Reset#. 4.3 Mode Switching During Power-Up, the HSTIF_SEL pins are sampled to configure the AL5300 HSTIF pins to one of three different host interface operating modes. The HSTIF_SEL pins must remain static for the duration of the operation of the AL5300 BBP/MAC. Table 1 shows the proper settings of the HSTIF_SEL pins. Table 1. HSTIF_SEL Pin Settings Host Interface Mode HSTIF_SEL[1:0]* CF+/ Generic Parallel 00 SDIO 01 ULPI 10 Reserved 11 *Note: Please connect the HSTIF_SEL pins to GND for a “0” or do not connect them for a “1”. Both HSTIF_SEL signals are pulled high on the daughter board through a 10K resistor to VDD. 0 = GND; 1 = No-Connect. 4.4 Firmware Boot-Up After completing the power-up cycle and after Card_Reset# is de-asserted, the AL5300 BBP/MAC automatically loads the Executable and Linking Format (ELF) firmware image into the chip’s internal instruction memory. There are two boot modes, SPI and HOST. When utilizing SPI boot mode, the ELF image is loaded from an external EEPROM, which is connected to the AL5300 BBP/MAC using an industry standard 4-wire SPI port. When utilizing HOST boot mode, the ELF image is loaded directly over the HSTIF through either CF+, SDIO, or ULPI, and eliminates the need for an external EEPROM. Once the ELF image has been loaded, the AL5300 BBP/MAC will provide a software handshake to the Alereon software drivers indicating that the AL5300 BBP/MAC is ready for normal operation. The state of the HOST_BOOT pin determines which of two modes is used (refer to Table 2). Table 2. Boot Modes Boot Mode HOST_BOOT* SPI Boot Mode Host Boot Mode *Note: Please connect HOST_BOOT through a 330 Ω resistor to GND for “0” or NoConnect for “1”. 0 = 330 Ω to GND; 1 = No-Connect. 5.0 CF+ SIGNAL DEFINITIONS The CF+/General Purpose Parallel interface can be configured as either a 8-bit or 16-bit parallel data port. The AL5300 BBP/MAC utilities a FIFO memory buffer at the interface, allowing for simple and efficient high throughput data transfers without affecting the operation of the wireless link. The CF+/General Purpose Parallel interface can be configured and used in accordance to the CF+ specification (CompactFlash, Revision 3.0). When used as a CF+ port, the interface is compatible to both the I/O and Memory modes of operation. The features of the AL5300 BBP/MAC CF+/General Purpose Parallel interface include: • Interrupt-driven interface (the AL5300 BBP/MAC will interrupt the host system) • 10 registers used to distinguish data and control spaces • Payload data is ordered by a FIFO and is pushed or pulled through a single address • Data and control registers can be accessed either as a 8-bit or 16-bit data word Table 3 provides a listing of the CF+ interface pins and their functions. Rev. 2.0 User Guide AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide Table 3. CF+/General Purpose Parallel Interface Pin Descriptions AL5300 Pin Name Type Description P8, P7, P6, P5, L5, P4, N4, N3, P1, N1, L2 ADDR[10:0] Input Memory Mode: These address lines along with the CF_REG# signal are used to select the following: The I/O port address registers within the generic parallel interface/CF+ Card, the memory mapped port address registers within the generic parallel interface/CF+ Card, a byte in the card's information structure and its configuration control and status registers. IO Mode: This signal is the same as the Memory Mode signal. L10, N11, N12, N13, P14, J1, J2, K1, P10, P11, P12, P13, N14, J4, K2, L1 DATA[15:0] BiDirection al Memory Mode: These lines carry the Data, Commands and Status information between the host and the controller. DATA0 is the Least Significant Bit (LSB) of the Even Byte of the Word. DATA8 is the LSB of the Odd Byte of the Word. Note: When operating in 8 bit mode, DATA[15:8] are ignored. IO Mode: This signal is the same as the Memory Mode signal. P3 CF_RESET Input Memory Mode*: The generic parallel interface/CF+ Card is Reset when the RESET pin is high with the following important exception: The host may leave the RESET pin open or keep it continually high from the application of power without causing a continuous Reset of the card. Under either of these conditions, the card shall emerge from power-up having completed an initial Reset. The generic parallel interface/CF+ Card is also Reset when the Soft Reset bit in the Card Configuration Option Register is set. IO Mode*: This signal is the same as the Memory Mode signal. *Note: CF_RESET is used to reset the CF+/General Purpose Parallel ports controller independently of the AL5300 BBP/MAC. Asserting CF_RESET will NOT reset the AL5300 BBP/MAC. P9 CF_CE1# Input Memory Mode: These input signals are used both to select the card and to indicate to the card whether a byte or a word operation is being performed. CF_CE2# always accesses the odd byte of the word. CF_CE1# accesses the even byte or the Odd byte of the word depending on ADDR0 and CF_CE2#. IO Mode: This signal is the same as the Memory Mode signal. N9 CF_CE2# Input Memory Mode: These input signals are used both to select the card and to indicate to the card whether a byte or a word operation is being performed. CF_CE2# always accesses the odd byte of the word. CF_CE1# accesses the even byte or the Odd byte of the word depending on ADDR0 and CF_CE2#. IO Mode: This signal is the same as the Memory Mode signal. N8 CF_OE# Input Memory Mode: This is an Output Enable strobe generated by the host interface. It is used to read data from the generic parallel interface/CF+ Card in Memory Mode and to read the CIS and configuration registers. IO Mode: In I/O Mode, this signal is used to read the CIS and configuration registers. L6 CF_WE# Input Memory Mode: This is a signal driven by the host and used for strobing memory write data to the registers of the generic parallel interface/CF+ Card when the card is configured in the memory interface mode. It is also used for writing the configuration registers. IO Mode: In I/O Mode, this signal is used for writing the configuration registers. N5 CF_IREQ# Output Memory Mode: In Memory Mode, this signal is set high when the generic parallel interface/CF+ Card is ready to accept a new data transfer operation and is held low when the card is busy. At power up and at Reset, the CF_IREQ# signal is held low (busy) until the generic parallel interface/CF+ Card has completed its power up or reset function. No access of any type should be made to the generic parallel interface/CF+ Card during this time. Note, however, that when a card is powered up and used with CF_IREQ# continuously disconnected or asserted, the Reset function of the CF_IREQ# pin is disabled. Consequently, the continuous assertion of CF_IREQ# from the application of power shall not cause the READY signal to remain continuously in the busy state. IO Mode: After the generic parallel interface/CF+ Card has been configured for I/O operation, this signal is used as Interrupt Request#. This line is strobed low to generate a pulse mode interrupt or held low for a level mode interrupt. L8 CF_IORD# Input Memory Mode: This signal is not used in this mode. IO Mode: This is an I/O Read strobe generated by the host. This signal gates I/O data onto the bus from the generic parallel interface/CF+ Card when the card is configured to use the I/O interface. N7 CF_IOWR# Input Memory Mode: This signal is not used in this mode. IO Mode: The I/O Write strobe pulse is used to clock I/O data on the bus into the generic parallel interface/CF+ Card controller registers when thickeners parallel interface/CF+ Card is configured to use the I/O interface. The clocking shall occur on the negative to positive edge of the signal (trailing edge). K4 CF_STSCHG# Output Memory Mode: This signal is asserted high, as BVD1 is not supported. IO Mode: This signal is asserted low to alert the host to changes in the READY and Write Protect states, while the I/O interface is configured. Its use is controlled by the Card Config and Status Register. M1 CF_REG# Input Memory Mode: This signal is used during Memory Cycles to distinguish between Common Memory and Register (Attribute) Memory accesses. High for Common Memory, Low for Attribute Memory. IO Mode: The signal shall also be active (low) during I/O Cycles when the I/O address is on the Bus. N2 CF_INPACK# Output Memory Mode: This signal is not used in this mode. IO Mode: The Input Acknowledge signal is asserted by the generic parallel interface/CF+ Card when the card is selected and responding to an I/O read cycle at the address that is on the address bus. This signal is used by the host to control the enable of any input data buffers between the generic parallel interface/CF+ Card and the CPU. H1 CF_IOIS16# Output Memory Mode: The generic parallel interface/CF+ Card does not have a write protect switch. This signal is held low after the completion of the reset initialization sequence. IO Mode: When the generic parallel interface/CF+ Card is configured for I/O Operation, this pin is used for the CF_IOIS16# function. A Low signal indicates that a 16-bit or odd byte only operation can be performed at the addressed port. P2 CF_WAIT# Output Memory Mode: The CF_WAIT# signal is driven low by the generic parallel interface/CF+ Card to signal the host to delay completion of a memory or I/O cycle that is in progress. IO Mode: This signal is the same as Memory Mode signal. Rev. 2.0 AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide 6.0 User Guide SDIO SIGNAL DEFINITIONS The SDIO interface supports both 1-bit and 4-bit Modes of operation and is fully compliant with SDIO Card Specification, Version 1.1. The SDIO interface can be double clocked, up to 50 MHz, providing twice the throughput of standard SDIO. Similar to the CF+/General Purpose Parallel interface, the SDIO interface utilizes a FIFO memory buffer at the interface to buffer the transactions on the host interface from those on the wireless link. Table 4 provides a listing of the SDIO interface pins and their functions. Table 4. SDIO Host Interface Pin Descriptions Pin Name Type Description L1 SDIO_DATA0 BiDirectional SD 4-bit mode: Data Line 0 SD1-bit mode: Data Line K2 SDIO_D1 BiDirectional SD4 bit mode: Data Line 1 or Interrupt (optional) SD1 bit mode: Interrupt J4 SDIO_D2 BiDirectional SD4 bit mode: Data Line 2 or Read Wait (optional) SD1 bit mode: Read Wait (optional) N14 SDIO_D3 BiDirectional SD4 bit mode: Data Line 3 SD1 bit mode: Not Used P13 SDIO_CMD BiDirectional SD4 bit mode: Command Line SD1 bit mode: Command Line N7 SDIO_CLK Input SD Clock Note: The host must pull-up SDIO_D0, SDIO_D1, SDIO_D2, and SDIO_D3 even if the host uses SD Memory Card as 1 bit mode-only in SD mode. 7.0 ULPI SIGNAL DEFINITIONS The AL5300 BBP/MAC host interface complies with the ULPI Specification, Revision 1.1, which is compatible with USB 2.0. The ULPI specification provides a low-pin, low-cost, small form-factor transceiver interface for any USB application. Control and data timing requirements are given in Table 5 and illustrated in Figure 5. These timings apply to Synchronous Mode only. All timings are measured with respect to the clock as seen at the ULPI input clock pin (ULPI_CLKI). Control signals and 8-bit data are always clocked on the rising edge of the clock, while the optional double-edge 4-bit data signals are clocked on rising and falling edges. This interface runs at a clock speed of 60 MHz. Table 5. ULPI Interface Timing Parameter Symbol Setup time (control in, 8-bit data in) TSC, TSD Hold time (control in, 8-bit data in) THC, THD Output delay (control out, 8-bit data out) TDC, TDD Min 6.0 0.0 Figure 5. ULPI Timing Diagram Rev. 2.0 Max Units ns ns 9.0 ns User Guide 8.0 AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide CABLE ASSOCIATION SUPPORT If the end product requires Cable Association support per the Wireless USB security specification, the following circuit must be added to the base motherboard design. J13 U16 USB_UPCONN_SHLD +3.3V C70 L10 C216 C217 AL_GPIO_LEDS VBUS_UP_CONN J14 R78 AL_GPIO_2 VBUS_UP_FLTR R79 C69 C71 USB_FC_DU+ USB_FC_RX USB_FC_DU- D23 R76 UART_RXD USB_FC_TX R77 D22 UART_TXD +3.3V R80 +3.3V PWR_ON_RESET# U17 UART_SIGS USB_FC_RST#/C2CK J15 POWER_CNTL USB_FC_C2D USB_FC_RST#/C2CK Figure 6. Cable Association Schematic Example Rev. 2.0 AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide 9.0 User Guide MECHANICAL MOTHERBOARD DESIGN CONSIDERATIONS The AL5621 schematics and "AL5621 to Motherboard" connector data sheets can be found in the AL5621-RDK (Reference Design Kit). The following drawing shows the mechanical requirements for the placement of the two AL5621 interface connectors that are required for Electro-Mechanical connection between the product's base motherboard and the AL5621 Radio module. Figure 7. AL5621 Module Mechanical Diagram 10.0 PRODUCT DESIGN UPDATES Design enhancements for all Alereon design are continually made. Please visit the Alereon NDA web site periodically to ensure you stay up to date with the lasted design changes, as well as schematic and Reference Design Kit revisions. Rev. 2.0 User Guide AL5621 Rev 2 Worldwide Wireless USB Device Radio Card Evaluation Board User Guide REVISION HISTORY Date Version Description 01/03/2008 1.0 Initial Release Version 03/03/2008 2.0 Document updated to reflect Rev 2 board revision. Rev. 2.0 Alereon, Inc. 7600 North Capital of Texas Highway Building C, Suite 200 Austin, TX 78731 Telephone: (512) 345-4200 Fax: (512) 345-4201 info@alereon.com The contents of this document are provided in connection with Alereon, Inc. products. Alereon makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication and reserves the right to make changes to specifications and product descriptions at any time without notice. No license, whether express, implied, arising by estoppel or otherwise, to any intellectual property rights is granted by this publication. Except as set forth in Alereon's Standard Terms and Conditions of Sale, Alereon assumes no liability whatsoever, and disclaims any express or implied warranty, relating to its products including, but not limited to, the implied warranty of merchantability, fitness for a particular purpose, or infringement of any intellectual property right. Alereon's products are not designed, intended, authorized or warranted for use as components in systems intended for surgical implant into the body, or in other applications intended to support or sustain life, or in any other application in which the failure of Alereon's product could create a situation where personal injury, death, or severe property or environmental damage may occur. Alereon reserves the right to discontinue or make changes to its products at any time without notice. © 2008 Alereon, Inc. All rights reserved. Trademarks Alereon, the Alereon logo and combinations thereof are trademarks of Alereon, Inc. Other product names used in this publication are for identification purposes only and may be trademarks of their respective companies.
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