Table of Contents
Peripherals for the Vampire Standalone V4
- Also known as
- This is a 44-pin IDE Interface.
- 44-pin devices, such as 2.5-inch IDE hard disks and CD/DVD drives, can be connected directly using a cable.
- 40-pin devices, such as 3.5-inch IDE hard disks and CD/DVD drives, can be connected using an appropriate cable adapter and an additional power source.
- SATA devices can be connected using a SATA-to-IDE adapter. There are adapters for various SATA connector types.
- For devices with an M.2 SATA connector, this adapter is known to work well.
- The board does not supply sufficient power to operate 3.5-inch devices. You would need to feed power into such devices from an outside power source.
- CompactFlash (CF) cards can be connected using a CF-to-IDE adapter.
- Supports “Fast IDE”, with PIO modes from 0 (slowest) to 6 (fastest).
- Most hard disks have support for up to PIO mode 4.
- Many CF cards support up to PIO modes 5 and 6. Therefore, CF cards enable the maximum possible speed on this interface.
- If you attach multiple devices to a single IDE cable, the slowest device will dictate the maximum speed on this interface. For example, if you have a CF card that supports PIO mode 6, its speed would be hampered by a hard disk which only supports PIO mode 4.
SPI-capable Expansion Ports
- These are the left and right Expansion Ports (
IO Header #1and
IO Header #3here).
- The following devices can be connected to these ports:
I2S-capable Expansion Port
- This is the middle Expansion Port (
IO Header #2here).
The following I2S devices were tested successfully with this port:
- Can be used to output analog audio from the Vampire through RCA audio jacks.
- Must be connected to the Expansion Port using female-to-female jumper wires like these ones.
- This is the
I2C / RTCport here.
- Can be used to connect simple, low-speed devices like battery-backed real-time clocks (RTC), small LCD/OLED displays, temperature sensors, etc.
- With an appropriate splitter, multiple devices can be connected to a single port.
The following I2C devices were tested successfully with this port:
- Strongly recommended if you want the Vampire to keep track of the current time across reboots.
- When connecting to the I2C port, the module must face towards the center of the board.
The pins are numbered from left to right based on the board schematics here.
68K Bus Expansion
- All 68K signals are available in this socket.
- Theoretically, a Zorro II bridge could be built for this socket, which would allow connecting Zorro cards to the Vampire.
Digital Video/Audio Out
- Compatible with most modern monitors and TVs.
- All Amiga screen modes (OCS/ECS/AGA/RTG) are output from this interface.
Resolution and refresh rate
- You can create RTG screen modes from 320×200@200Hz up to 1920×1080@28Hz.
- As the resolution increases, the maximum possible refresh rate decreases.
- The Vampire is able to achieve a refresh rate of 60Hz for all resolutions up to and including 1280×720. Resolutions higher than that will reduce the maximum refresh rate to below 50Hz. For example:
- 1600×900: ≤40Hz
- 1920×1080: ≤28Hz
- The Vampire outputs the exact resolution of RTG screen modes, without any upscaling.
- The Vampire upscales non-RTG (OCS/ECS/AGA) screen modes to the correct aspect ratio:
- PAL mode:
- Low Res / High Res ⇒ 720×576@50Hz (standard PAL)
- Super-High Res ⇒ 1440×576@50Hz
- NTSC mode:
- Low Res / High Res ⇒ 720×firstname.lastname@example.orgHz (standard NTSC)
- Super-High Res ⇒ 1440×email@example.comHz
- For the best experience, you should use a monitor or TV that natively supports all the resolutions and refresh rates that you will use. Monitors or TVs that support “variable refresh rate” or “adaptive sync” usually work best.
- If you are stuck with a monitor or TV that does not (adequately) support the resolutions and refresh rates that you will use, you can connect an “HD video converter” to adjust the signal from the Vampire as desired. For example, you can easily find converters that upscale the video signal to exactly 1920×1080@60Hz. (Some purchase options: 1, 2, 3, 4)
- All Amiga audio is output from this interface, as digital audio.
- If your monitor or TV has built-in speakers, you can play the audio from there.
- Some monitors and TVs have audio output or headphone jacks, so you can pass the audio through to a different device.
- You can connect a DVI monitor to this interface, using an adapter that converts Digital Video to DVI.
- Please note that most DVI monitors cannot handle the Digital Audio signal that is sent together with the Digital Video signal. To be able to use such monitors, you would need an “audio extractor/splitter” that moves the Digital Audio signal to a different output. (Example purchase options are mentioned above.)
- Note: Another alternative to output analog audio (through RCA audio jacks) is explained in I2S-capable Expansion Port above.
- Most MicroSD and MicroSDHC cards should work fine.
- Supports speeds up to
Speed Class 10.
- You can use the Arananet SDNET Adapter in this slot to connect an Ethernet module to the Vampire. (This adapter also contains an SD-to-MicroSD adapter, so you will not lose the functionality of using SD cards in this slot.)
- These two ports are reserved for USB input devices like mice, keyboards and game controllers.
- The port next to the DB-9 (Amiga joystick) ports is reserved for a mouse or a game controller.
- The port next to the Ethernet port is reserved for a keyboard.
- See here for exact port locations.
- USB hubs are not supported. Therefore, keyboard & mouse switches that are hub-based will not work.
- At the hardware level, the USB input device signals are translated to classic Amiga input device signals. Therefore, the input devices are available to AmigaOS immediately upon booting the Kickstart, without the OS having to load a USB stack.
- A USB mouse is mapped to a “virtual” Amiga mouse that is connected to a DB-9 port.
- Left, right and middle mouse buttons, as well as the mouse scroll wheel, work just like an Amiga mouse.
- A USB keyboard is mapped to a “virtual” Amiga keyboard.
- The left ⊞ Windows logo key is mapped to the left Amiga key.
- The right ⊞ Windows logo key, the ≣ Menu key (application key), and the right Ctrl key are all mapped to the right Amiga key.
- The Page Up/Page Down keys are both mapped to the Amiga Help key.
- A USB game controller is mapped to a “virtual” Amiga joystick that is connected to a DB-9 port.
- The D-pad, the digital stick and the analog stick are mapped to Amiga joystick directions.
- The fire buttons are mapped to two fire buttons of the Amiga joystick.
- Because the USB ports are being mapped to classic Amiga connectors at the hardware level, the operating system will not see actual “USB” ports.
- Also known as
- Compatible with Amiga, Atari and Commodore 64 joysticks.
- Works with one-button and two-button joysticks.
- Amiga CDTV remote controllers (connected using an appropriate IR adapter) behave like a two-button joystick.
- Amiga CD32, Sega Master System and Sega Genesis (Mega Drive) joypads behave like a two-button joystick.
- You can enable the third fire button on a Sega Genesis (Mega Drive) joypad by rewiring it.
- The rewiring technique is described most recently in the ADoom documentation (under the heading “SEGA CONTROLLER”).
- The games ADoom, Hired Guns and Flashback, as well as some emulators, support all 3 fire buttons.
- The two ports allow up to two players to connect.
- Amiga mice do not work.
Last modified: le 2020/01/07 19:42