WL102B Wireless Data Controller Advance Information DS4582 - 3.0 July 1999 Features Ordering Information WL102B/IG/TP1R 100 pin package WL102BC/PR/FP1R 144 pin package ● Complete CMOS, single chip, radio transceiver controller ● Hardware implemented Communication Control Block (CCB) ● Protocol independent design using external flash memory ● Internal 8051 and external processor options ● Internal/external buffer and processor RAM ● Block power down facility ● PCMCIA/8bit processor host interface to buffer RAM ● Up to 1Mbps/2 level or 2 Mbps/4 level operation The WL102B is a highly integrated CMOS wireless data controller designed to dramatically reduce the cost of radio data applications. It works with the WL600C RF IF chip and WL800 synthesiser chip to offer a complete solution for a frequency hopping, spread spectrum radio in the 2.4 to 2.45GHz ISM band. Its flexible design means that it can also be used in a wide range of other applications using a range of "processor", protocols and additional memory options as well as radios at other frequencies. Related Documents WL600C, WL800 and WL102B (DS4837) Datasheets Receive Interrupt Transmit DMA Buffer RAM 6K4 Communications Control Block Status Control Memory Control Block Address Address Data Data Control Control Port Pins Interrupt 8051 System RAM 4K Counters Power Down Control Attribute Memory WL102 Figure 1 WL102 Minimum configuration block diagram Configuration WL102 Advance Information HD1 HD0 HA1 HREGB HA2 HA3 HWAITB HA4 HRESET HA5 HA6 HA7 HRDY HWEB HA0 HWRB HRDB HVdd HGnd HOEB HCEB HD7 HD6 HD5 HD4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 HD3 SA11 SA9 SA8 SA13 SVdd SGnd SA14 SWRB SA15 SA12 SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA0 SD0 SD1 SVdd SGnd P3[0] / EPSYSINC EPRSTB 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 SYSCLK SYSCLK_GND AGnd AVdd RXD_L RXD_LB RXD_H RXD_HB THREEV SWAKEUP / EPTCNT2 EPRDYB ENIBRAMB CCAB SRDB SPSENB SA10 CCEB SD7 SD6 SD5 SD4 SD3 SD2 P1[5] / EPTCNT1 P1[3] / EPCINTR Fig.ure 2 100 Pin package 2 HD2 HVdd HGnd TEST0 TEST1 ENI8051B RSSISTRB MOD2LEVB SVdd SGnd TXD_L TXD_H / TXD SYSCLK_D SYSCLK_X RXD_D P3[1] / EPMINTR CS_DATA / PWR_LOB CS_CLK / ANT_SEL CS_LOADB / LOADB TX/RXB / RX/TXB SVdd SGnd STDBYB PA_ON LCK_DETB Advance Information WL102 HD1 HD0 HA1 HREGB n/c CSD6 HA2 HA3 CSD5 HWAITB n/c HA4 HRESET HA5 CSD4 HA6 HA7 HRDY CSD3 HWEB HA0 HWRB CSD2 n/c HRDB HVdd n/c HGnd CSD1 HOEB HCEB CSD0 HD7 HD6 HD5 HD4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 HD3 SA11 SA9 SA8 EBA4 SA13 EBA5 SVdd EBA6 SGnd n/c SA14 SWRB EBD3 SA15 SA12 EBD2 SA7 SA6 EBD1 SA5 SA4 EBD0 SA3 EBA7 SA2 SA1 SA0 EBA8 SD0 SD1 EBA9 SVdd SGnd P3[0] / EPSYSINC EPRSTB 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 HD2 HVdd HGnd TEST0 TEST1 ENI8051B n/c EBD7 RSSISTRB MOD2LEVB EBD6 SVdd SGnd EBD5 TXD_L EBD4 TXD_H / TXD n/c SYSCLK_D SYSCLK_X EBA3 RXD_D P3[1] / EPMINTR EBA2 CS_DATA / PWR_LOB CS_CLK / ANT_SEL EBA1 CS_LOADB / LOADB n/c TX/RXB / RX/TXB SVdd EBA0 SGnd STDBYB PA_ON LCK_DETB 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 SYSCLK SYSCLK_GND AGnd AVdd EBA15 RXD_L RXD_LB RXD_H RXD_HB EBA14 THREEV n/c SWAKEUP / EPTCNT2 EBA13 EPRDYB EBCEB ENIBRAMB CCAB EBWRB SRDB EBRDB SPSENB EBA12 SA10 CCEB SD7 n/c SD6 EBA11 SD5 SD4 EBA10 SD3 SD2 P1[5] / EPTCNT1 P1[3] / EPCINTR Figure 3 144 Pin package 3 WL102 WL102 System Overview The WL102 is a highly integrated digital wireless transceiver controller suitable for controlling multiple channel radios with data rates up to 1Mbit/s 2-level data or 2Mbit/s 4-level data. It has been designed to interface easily with the WL600 and WL800 radio transceiver chips. The use of low power synchronous on chip RAM and selective power down of system blocks makes the WL102 ideally suited to power sensitive applications. Also the WL102 can be operated from 3V or 5V supply rails with level translation between the Host and MAC system built in to the Host Interface. A minimum configuration of the WL102 with a 64Kbyte external ROM for code storage makes it ideal for small footprint applications, and the option of 100 pin or 144 pin TQFP 1mm packages make it suitable for PC-Card applications. The 100 pin package option allow the WL102 to be used in the lowest cost solution. This includes all the internal blocks of the WL102 hardware plus the option of an external processor, to replace the internal 8051 core, and the external system RAM and / or other peripherals on the processor bus. The 144 pin package includes the 100 pin features plus the option of using an external data buffer RAM (up to 64K), to replace the internal 6.4K buffer RAM, and the option of using the parallel synthesiser load pins the are active in DE6003 mode of the CCB block, the Datasheet DS4837 should be checked for further information on this option. It is envisaged that the WL102 hardware will allow the development of a wireless network to the Media Access Layer of the IEEE model for networking, with the addition of an LLC layer providing the equivalent of the Data Link layer of the ISO network model. In such a system the Host interface buffer RAM would provide the boundary between the LLC layer running on the Host and the MAC layer on the internal WL102 8051 processor, or an optional external MAC system processor. Figure 1 shows the internal architecture of the WL102. The WL102 provides an interface between a Host system, such as a PC or PDA, which can be a PC-Card interface or an 8 bit microprocessor bus, and an interface designed for use with the DE6038 (WL600/WL800) radio transceiver. The host interface provides a buffer and interrupt signalling mechanisms between the Host and Mac system processors. The MAC system processor is required to provide the timing and control functions of Media Access Control. 4 Advance Information The Communications Control Block performs transmit and receive operations directly to the buffer RAM so minimising the load on the MAC system processor. A minimum controller system configuration would be the WL102 plus an external code memory device. WL102 Hardware Blocks System Processor The WL102 contains an embedded processor, identical in operation to an industry standard 8051 microcontroller, with the exception that the internal data memory is increased from 128 to 256 bytes. System busses and strobes allow the 8051 to access the full 64 Kbytes of external code memory. Internal connections exist to the processor's two interrupt inputs, and to the two timer inputs. Two I/O port pins are internally connected to blocks within the WL102, whilst four of the remaining I/O port pins are brought out to external pins, including the serial receive and transmit port pins. Internal address decoding provides access to the other blocks of the device, with 36 Kbytes of the processor's 64 Kbytes address range being unassigned and available for the addition of external peripheral devices. The 8051 demultiplexed address and data bus are available externally to allow for the addition of extra memory or other peripheral devices. The 8051 is clocked at the internal system clock frequency of 10MHz. If additional processing power is required for a particular application the WL102 may also be used with an external processor instead of the internal 8051. This external processor also accesses the WL102 blocks via the internal address decode. Interrupt and Counter outputs are brought to external pins and two control signals must also be provided to the WL102. Data RAM The WL102 contains 4 Kbytes of static RAM which the processor may use for variable storage etc. If additional storage space is required, an external static RAM may also be used, and mapped to an unused area of the WL102 memory map. Advance Information WL102 Memory Control Block Communications Control Block The memory Control Block allows access to the dual port buffer used to communicate between the Host and WL102 system processes. The control logic of the buffer RAM allows the Host to asynchronously read or write data at the same time as the WL102 MAC system. To help arbitrate access to this buffer space, a hardware semaphore system is also included. This block of the WL102 performs many of the functions required for transmission and reception of data packets, and interfaces directly to the radio transceiver. For power sensitive applications the configuration registers can have their clocks switched off once the initial configuration is complete and for protocols which allow the transceiver to sleep for periods of time, the clocks to the entire block can be disabled via the Power Control register. The WL102 contains 6784 bytes of low power buffer RAM on chip. The 144-pin package option also allows for an external (single port) SRAM to be used to increase the buffer RAM space, up to 64Kbytes. Host Interface The Host Interface has been designed to be flexible enough to allow its use from small microprocessor systems to PC-Card slots. In a minimum configuration it uses only 4 address locations and a standard microprocessor type read and write cycle. The interface provides access to the Buffer RAM, which is accessible by both the Host and the MAC systems simultaneously, and also to a control register which allows the Host to reset or interrupt the MAC processor, and performs some other control functions on the WL102. Packets of data are typically buffered in the internal buffer RAM before being transmitted or transferred from the MAC system to the host. The 8-bit interface is microprocessor and PCMCIA-compatible, with a separate dedicated RAM providing 255 bytes of attribute memory used for the configuration and control of a PC Card. The host interface may be used by any microprocessor-type interface which can supply two bits of address, a chip enable signal, read/write strobes and 8 bits of data, subject to timing requirements of the WL102. The interface also provides an interrupt signalling mechanism between the Host and MAC system as well as some other control functions, such as a hardware semaphore and reset circuitry. The CCB handles all the control signals for the radio and can be configured for the timing required by the transceiver being used. The CCB can directly access data stored in the buffer RAM, via a DMA bus separate to the processor bus, and once configured will finally handle a transmission or reception, including CRC checking, address match, optional data scrambling (Bias suppression encoding) and transfer of the data to/from the buffer RAM. For shorter network management packets the MAC system processor can directly read/write up to 64 bytes of data from/to the CCB FIFO. The CCB generates maskable interrupts to the MAC system processor at defined points in the receive/transmit process to allow the processor to perform any additional processing required to succcccessfully complete the receive or transmit sequence. The Features of the CCB include: ● ● ● ● ● ● ● ● ● Transmission and reception of 2-level and 4-level GFSK bit streams at 625Kbps, 1Mbps and 2Mbps. Configurable Preamble/Frame word generation and recognition Checksum generation and validation (CRC-16 and CRC-32) Optional data coding schemes: bit-stuffing, scrambling and bias suppression encoding (as per draft IEEE 802.11) Dedicated data path for DMA transfer to and from buffer RAM Address matching on received data packet Analysis of received signal for performing clear channel assessment, including 16-bit countdown timer 8 (maskable) interrupt sources to optimise operation of the system software Automatic synthesiser channel loading for Rx/Tx when using WL600/WL800 5 WL102 Advance Information Counters Manufacturing Enhancements The two 16-bit counters are provided which are configured by setting a reload value. When enabled, the counters decrement continuously at 10MHz, generating a terminal count signal to the processor and automatically reloading the reload value when the count reaches zero. Radio Test Mode The terminal count outputs are internally connected to the 8051 timer inputs when using the internal 8051, and to external pins when using an external processor. Power Control A power-down function is provided under the control of the WL102 system. Power down enable signals are provided to each major block; the clocks of the individual blocks being disabled when the appropriate power down bit is set. In addition, the internal processor's PCON register will disable the 8051 core in the usual manner. System Supply Voltages The WL102 has two separate digital supply rails, allowing for use in mixed 3V/5V systems. The host interface has its own independent supply, whilst a second supply powers the core of the WL102 and its interface to the memory and radio transceiver subsystems. Both power supplies may be operated at either 3 or 5 volts (nominal), with the restriction that the host interface supply voltage must be greater than or equal to the voltage powering the WL102 core and radio transceiver. The WL102 radio test mode of operation allows an attached radio transceiver to be tested more easily in a complete assembled unit. The mode is selected by configuring the test mode pins. In this mode the usual functions of the WL102 are suspended and the control and status signals of the CCB radio interface are connected to the pins of the Host interface, with the WL102 providing the status signals back from the radio interface. The comparators on the receive data stream are still used and so the test system is provided with the digital version of this radio output. In addition the operation of the CCB preamble and frame word recognition can be tested, as well as the clock recovery data stream. MCB Execute Mode This mode of operation is used to allow programming of the external code memory if a re-programmable device is used, via special software run on the Host. Using this mode, the WL102's code memory is completely reprogrammed regardless of its current state i.e. no 'bootblock' code is required in the WL102 system. This allows complete radio modules to be manufactured without the need for preprogramming the code memory. At final test the MAC software image can be downloaded or test software can be downloaded and used prior to the final software. This facility also allows the complete radio module to be upgraded in the field or for diagnostic software to be downloaded as necessary. 6 http://www.mitelsemi.com World Headquarters - Canada Tel: +1 (613) 592 2122 Fax: +1 (613) 592 6909 North America Tel: +1 (770) 486 0194 Fax: +1 (770) 631 8213 Asia/Pacific Tel: +65 333 6193 Fax: +65 333 6192 Europe, Middle East, and Africa (EMEA) Tel: +44 (0) 1793 518528 Fax: +44 (0) 1793 518581 Information relating to products and services furnished herein by Mitel Corporation or its subsidiaries (collectively “Mitel”) is believed to be reliable. However, Mitel assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. 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