REMOTE ACCES 12-Bit Analog/Digital I/O Pod
- Remote intelligent analog and digital I/O unit with opto-isolated RS-485 serial interface to host computer
- Eight-channel programmable gain, 12-bit resolution A/D converter
- Can be used with AIM-16 multiplexer to support up to 128 differential or single ended inputs
- Eight digital I/O lines, bit-programmable as inputs or outputs
- Protective Nema4 enclosure for harsh atmospheric and marine environments(RAD128 only)
- 8031 microcontroller with 8 x 32K RAM and 8 x 32K EEPROM
- On-board crystal clock and three 16-bit counter/timers
- Watchdog circuit for reset on power-up and microprocessor failure
- All programming in software, No switches to set. Jumpers (3) to by-pass opto-isolators if desired.
RAD128 is an intelligent, eight channel, 12-bit, analog-to-digital converter unit that interfaces to a host computer through an optoisolated asynchronous serial port. It is packaged in a steel enclosure for remote installation and input connections are via screw terminals on the card. Communication with the host computer is via EIA RS485 serial communications. ASCII-based command/response protocol permits communication with virtually any computer system that has an RS485 port. ASCII-based programming permits you to write applications in any high-level language that supports ASCII string functions. As many as 31 RAD128's may be connected on a single two or fourwire multidrop network. Each unit has a unique address and communication uses a master/slave protocol wherein the unit talks only if questioned by the computer.
The unit's address is programmable from 00 to FF hex and whatever address is assigned is stored in EEPROM and used as the default address at the next power-on. Similarly, baud rate is programmable for 1200, 2400, 4800, 9600, 14400, 19200, and 28800. The programmed baud rate is stored in EEPROM and used as default at the next power-on. A type 8031 microcontroller (with 32K x 8 bits RAM and 32K x 8 bits EEPROM and a watchdog timer circuit) gives RAG128 the capability and versatility expected from a modern distributed control system. RAD128 contains lowpower CMOS circuitry, an opto-isolated receiver/transmitter, and power conditioners for local and external isolated power. It can communicate at baud rates up to 28.8K baud and distances up to 4000 feet with low-attenuation twisted pair cabling.
RAD128 accepts up to eight single-ended analog inputs. Input voltage ranges of ±10V, ±5V, 0-10V, and 0-5V are programmable on a channel-by-channel basis. All inputs are internally protected up to 16.5V. The digitizer used is a 12-bit, successive approximation analog-to-digital converter capable of 10,000 conversions per second. Conversions may be initiated in one of three ways:
a. By software
b. By an on-board programmable timer.
c. By an external trigger.
The RAD128 can be used alone or it may be used with signal conditioners and analog sub-multiplexers AIM-16 and LVDT-8 or with simultaneous sample and hold amplifiers models SSH-04 and SSH-08.
The RAD128 accepts up to eight single-ended analog inputs. Input ranges of ±10V ±5V, 0-10V, and 0-5V are programmable on a channel-by-channel basis and all inputs are overvoltage protected up to ±16.5V. RAD128 uses a 12-bit successive approximation analog-to-digital converter (A/D) capable of 10K samples per second (6.67K samples per second in background.) A/D conversions may be initiated in one of three ways: (a) by software command, (b) by an on-board programmable timer, or (c) by an external trigger.
For applications that require more than eight input channels, the RAD128 is fully compatible with AIM-16P analog input expansion multiplexers. Each AIM-16P provides capability to connect sixteen differential or single-ended inputs. As many as 32 differential or singlel-ended inputs can be accepted when an RAD128 is used with two AIM-16P's. (For NEMA 4 installations, see the description of RIDACS systems. The RAD128 is also fully compatible with the LVDT-8 signal conditioning card for linear displacement measurements.
Eight bits of TTL/CMOS-compatible digital I/O are provided. These can be configured on a bit-by-bit basis as either inputs or outputs. When used as outputs, a maximum of seven bits is available. Each output provides compliance with user-supplied voltages up to 50V and the maximum current per output bit is 350 mA. For the seven-bit group, there is a maximum combined total of 650 mA current. There are an additional eight bits that are used strictly for digital output. Output bits G0-G2 and SEL0-SEL3 are normally used for gain and channel select when using RAD128 with an AIM-16 multiplexer board. The final output, 0P4, is available for general use. Each output has 10 LSTTL load drive capability.
Three 16-bit Counter/Timers are provided on the RAD128. Counter/Timer 0 is enabled by a digital input and may be clocked either by the output of Counter 1 or by an external source up to 10 MHz. This counter is not committed on the card and its clock, gate, and output lines are available at the I/O connector. Counter/Timers 1 and 2 are concatenated to form a 32-bit counter/timer for timed A/D conversions. Counter 1 may be enabled by a digital input and is clocked by an on-board, crystal-controlled 10 MHz oscillator. The output of Counter 1 provides the clock for Counter 2 and is also available at the I/O connector. The output of Counter 2 is connected to input T0 of the microprocessor and provides the means to initiate timed A/D conversions.
The built-in watchdog timer resets RAD128's microcontroller "hangs up" or if the local power supply drops below 7.5 VDC.
There is a screw terminal assembly inside the top cover of the pod and a gland is provided to seal wiring for full NEMA compliance. You can assemble a cable of whatever length you need, route it through the gland, and terminate the cable at the other end by whatever means best fits your application. I/O Screw terminal assignments are listed in the label on the cover of the pod.
RAD128 contains CMOS low power circuitry, an optically isolated receiver/transmitter, and voltage regulators for local power and external isolated power. The isolated section of the unit accepts 7.5 to 35 VDC and only uses about 40 milliamperes (7 mA at 12 VDC). This power could be provided by the computer's +12 VDC supply. Voltage drop in the cable will be insignificant, even if the cable is very long because so little current is drawn. Power for the rest of the unit's circuits can be provided by a separate, local power supply. Only 7.5 VDC is needed but, because onboard voltage regulators are provided, the local power can be as high as 18 VDC.
Drivers and Downloads
ACCES also offers Custom Software Services for our products. Our prices are unbelievably low, often as inexpensive as free! If you need something tweaked to support your needs, or an entire enterprise application developed from scratch, it is definitely worth your time to inquire with us, first.
Further information about available ACCES Software:
- Redistributing Windows Drivers
- A list of ACCES drivers and the files that compose them under different versions of Windows, so you can easily redistribute ACCES cards and drivers.
- Channels: Eight, single-ended.
- Resolution: 12 binary bits.
- Accuracy: 0.02% ±l LSB.
- Input Voltage Modes: ±5V, ±l0V, 0-10V, 0-5V.
- Coding: True binary for unipolar inputs and offset binary for bipolar inputs.
- Throughput: 10K samples per second.
- A/D Type: Successive Approximation.
- Monotonicity: Guaranteed over operating temperature range.
- Gain Drift: ±5 PPM/°C.
- Trigger Source: Software command, on-board programmable timer, or external source.
- Number of Bits: eight parallel bits. each is software configured to be input or output.
- INPUT:Logic Low: -0.5 to 0.8 VDC at -0.4 mA max.
- INPUT:Logic High: 2.0 to 5.0 VDC at 20 µA max.
- Logic-Low Output Current: 350 mA maximum. Inductive-suppression diode included in each circuit.
- High-Level Output Voltage: Open collector, compliance with up to 50V user-supplied voltage. If no user-supplied voltage exists, outputs are pulled up to +5VDC via 10 kilohm resistors.
- Type: 82C54-2 programmable interval timer.
- Counters: Three 16-bit down counters, two permanently concatenated, with 10 MHz clock as programmable timer. One counter is uncommitted.
- Output Drive: 4 mA at 0.45V (10w LSTTL loads).
- Input Gate: TTL/CMOS compatible.
- Clock Input Frequency: DC to 10 MHz.
- Active Count Edge: Negative edge.
- Minimum Clock Pulse Width: 30 nS high/50 nS low.
- Timer Range: 2.5 MHz to < 1 pulse per hour
- Operating Temperature Range: 0° to 65°C. (Optional -40°C to +80°C.)
(For Temperature De-rating considerations, refer to the "Temperature De-rating" discussion in the REMOTE ACCES Overview page that presents "Specifications common to all REMOTE ACCES pods.")
- Storage Temperature Range: -50°C to +120°C.
- Humidity: 5% to 95% RH, non-condensing. Enclosure is designed to meet NEMA 4 requirements.
- Power for the opto-isolated section can be applied from the computer's +12 VDC power supply via the serial communications cable, if a four-wire cable is used, or by a local isolated power supply. Power for the rest of the pod can be provided by a local power supply.
- Opto-Isolated Section: 7.5 to 25 VDC @ 40 mA maximum (7 mA at 12 VDC .)
- Local Power: 7.5 to 16 VDC at 150 mA
- This product is in full compliance with CE requirements.