• Hardware Supports Programming for Atmel AT40K/AT40KAL and AT94KALSeries of SRAM-based Programmable System Level Integration PSLI Devices Supports ISP In-System Programming for Atmel AT17 Series Configuration EEPROMs Built-in Clock Source with GCLK/FCLK Jumper Settings Supports Modular Docking Platform for the ATDH40D FPGA Daughter Boards Runs Off Portable 9V DC Power Supply or External Power Supports 5.0V or 3.3V Supply Designed to Work with Atmel IDS or Above Downloading for AT40K/AT17 Devices Direct from PC Parallel Port Can be Used to Support FPSLIC
Part | Datasheet |
---|---|
![]() |
ATDH40D160 (pdf) |
PDF Datasheet Preview |
---|
• Hardware Supports Programming for Atmel AT40K/AT40KAL and AT94KALSeries of SRAM-based Programmable System Level Integration PSLI Devices Supports ISP In-System Programming for Atmel AT17 Series Configuration EEPROMs Built-in Clock Source with GCLK/FCLK Jumper Settings Supports Modular Docking Platform for the ATDH40D FPGA Daughter Boards Runs Off Portable 9V DC Power Supply or External Power Supports 5.0V or 3.3V Supply Designed to Work with Atmel IDS or Above Downloading for AT40K/AT17 Devices Direct from PC Parallel Port Can be Used to Support FPSLIC • System Contents ATDH2081 25-pin Parallel to 10-pin Header Adapter ATDH40Dxxx Package-specific Daughterboard Variable ATDH40M Programming Motherboard Standard Parallel Cable PC Parallel Port DB25 , 10-pin Header Cable, 9V DC/200 mA, mm Center Positive Power Supply The Atmel ATDH40M prototyping system allows designers to quickly and economically evaluate Atmel’s family of AT40K/AT40KAL FPGA and AT94K Field Programmable System Level Integrated Circuit FPSLIC devices and Atmel’s AT17 FPGA configuration memory devices. The ATDH40M board connects to any x86 PC via parallel port through a 10-pin header cable to program the AT40K/AT40KAL FPGA/AT94K FPSLIC, or through a parallel port cable to program the AT17 FPGA Configuration EEPROMs. The motherboard interfaces with various daughter boards in order to program different package footprints see Table Table Daughter Board Support List ATDH40D84 84-pin Plastic Lead Chip Carrier ATDH40D100 100-pin Very Thin Quad Flat Pack ATDH40D100R 100-pin Rectangular Quad Flat Pack ATDH40D144 144-pin Thin Quad Flat Pack ATDH40D160 160-pin Plastic Quad Flat Pack ATDH40D208 208-pin Plastic Quad Flat Pack ATDH40D240 240-pin Plastic Quad Flat Pack Programmable System Level Integration Prototyping System ATDH40M ATDH40DXXX The AT40K/AT40KAL FPGA devices are pin-compatible in a given package footprint across the family. See Table 2 for compatibility listings. The 208PQFP, for example, will support all AT40K family members. FPSLIC is pin-compatible with AT40K/AT40KAL device families and is supported by the ATDH40M Prototyping System. Table Part and Package Availability Showing User I/O Counts Package Ordering Code AT40K05/ AT40K05AL/ AT94K05AL AT40K10 AT40K10AL AT94K10AL AT40K20/ AT40K20AL AT40K40/ AT40K40AL AT94K40AL PC84 VQ100 RQ100 TQ144 PQ160 PQ208 BG225 1 PQ240 PQ304 1 BG352 1 BG432 1 Note Daughtercard not available for ATDH40M. Not all devices are available in all package options. Please check appropriate datasheet for a list of valid part/package combinations. Programming Setup Figure 1 on page 3 is the board layout of the ATDH40M motherboard. Figure 2 shows the typical daughter board. To connect the two boards together, the daughter board fits on top of the motherboard by aligning the two arrows together. The two boards will only fit one way. ATDH40M/D Figure Motherboard Layout ATDH40M ATDH40M/D Figure Daughter Board Layout Example ATDH40D84 Power Configuration Power for the motherboard can come from two sources. It can be supplied by either the jack inputs J1 and J2, or by a 9V power input P1. The source that will drive the motherboard is determined by switch SW3. Power supplied by the jacks uses the external setting. Power supplied by the 9V source uses the internal setting. Voltage on the motherboard for the latter setting is regulated by switch SW2. LV parts use the 3.3V setting while the rest use the 5.0V setting. The LED L1 will light up only when power is correctly supplied to VCC. Table 3 lists the possible configurations. AT40KAL and AT94KAL devices must use 3.5V power setting. Table Motherboard Power Distribution Voltage 0.0V no power External Variable 3.3V Internal 3.3V for AT40KAL/AT94KAL 5.0V Internal 5.0V for AT40K Program/Boot Settings Switches SW4 and SW5 determine the program and boot settings for the ATDH40M. They are located on the bottom left corner. Table 4 lists the switch combinations and their effects. SW4 controls the SEREN signal line of the motherboard to the 2:1 multiplexer device U3 and the AT17 device U1 . SW% connects signal D0 from the PSLI device to either the AT17 configuration memory device only down or to the PC interface up . Table Programming Modes SW4 SW5 Effect Up Program in Slave Serial from PC |
More datasheets: ST12KS2V30Q | ST12KS2CQE | ST12L3MV1BE | ST12L3MZQ | ST12L2S2V2QE | ST11T2M5ZGE | ST11T1M4ZQ | ST11F1S2A1B | ST12KMV2B | ST23KMCT |
Notice: we do not provide any warranties that information, datasheets, application notes, circuit diagrams, or software stored on this website are up-to-date or error free. The archived ATDH40D160 Datasheet file may be downloaded here without warranties.