user manual
Table Of Contents
- Contents
- Warranty
- U.S. Government Restricted Rights
- WARNINGS
- Declaration of Conformity
- Chapter 1 Installing and Configuring the HP E1459A...
- Functional Description
- Configuring for Installation
- WARNING SHOCK HAZARD. Only qualified, service-trai...
- WARNING SHOCK HAZARD. When handling user wiring co...
- WARNING SHOCK HAZARD. Use wire with an insulation ...
- Caution MAXIMUM VOLTAGE. Maximum allowable voltage...
- Caution STATIC-SENSITIVE DEVICE. Use anti-static p...
- Setting the Logical Address
- Setting the Interrupt Priority
- Note Consult your mainframe manual to be sure that...
- WARNING To prevent electric shock, tighten facepla...
- WARNING To prevent the spread of fire in the case ...
- Chapter 2 Using the HP E1459A Module
- Chapter 3 HP E1459A SCPI Command Reference
- Common Command Format
- SCPI Command Format
- DIAGnostic:SYSReset Subsystem
- DISPlay:MONitor Subsystem
- INPut Subsystem
- MEASure Subsystem
- MEMory Subsystem
- SENSe Subsystem
- DAV
- NEDGe
- PEDGe
- Syntax
- [SENSe:]EVENt:PORTn:DAVailable?
- [SENSe:]EVENt:PORTn:DAVailable:ENABle
- [SENSe:]EVENt:PORTn:DAVailable:ENABle?
- [SENSe:]EVENt:PORTn:EDGE?
- [SENSe:]EVENt:PORTn:EDGE:ENABle
- [SENSe:]EVENt:PORTn:EDGE:ENABle?
- [SENSe:]EVENt:PORTn:NEDGe?
- [SENSe:]EVENt:PORTn:NEDGe:ENABle
- [SENSe:]EVENt:PORTn:NEDGe:ENABle?
- [SENSe:]EVENt:PORTn:PEDGe?
- [SENSe:]EVENt:PORTn:PEDGe:ENABle
- [SENSe:]EVENt:PORTn:PEDGe:ENABle?
- [SENSe:]EVENt:PSUMmary:DAVailable?
- [SENSe:]EVENt:PSUMmary:EDGE?
- STATus Subsystem
- Note Transition filters are always set for positiv...
- Note The Questionable Status Condition, Event, and...
- STATus:OPERation:CONDition?
- STATus:OPERation:ENABle
- STATus:OPERation:ENABle?
- STATus:OPERation[:EVENt]?
- STATus:OPERation:PSUMmary:CONDition?
- STATus:OPERation:PSUMmary:ENABle
- STATus:OPERation:PSUMmary:ENABle?
- STATus:OPERation:PSUMmary[:EVENt]?
- STATus:PRESet
- STATus:QUEStionable:CONDition?
- STATus:QUEStionable:ENABle
- STATus:QUEStionable:ENABle?
- STATus:QUEStionable[:EVENt]?
- SYSTem Subsystem
- IEEE 488.2 Common Commands
- Command Quick Reference
- Appendix A HP E1459A Specifications
- Max Input Voltage: Between High and Low terminal o...
- Module Size/Device Type: C, Register-based.
- Connectors Used: P1 and P2.
- Number of Slots: 1
- VXIbus Interface Capability: Interrupter, D16.
- Interrupt Level: 1-7, selectable.
- Power Requirements: Voltage: +5Vdc Peak Module Cur...
- Watts/Slot: 1.0
- Minimum Pulse Width: 100ms + debounce time.
- Operating Range:
- Debounce: Programmable from 16 mS to 1074 S.
- 5 Volt Supply: Output voltage : 4.5 to 5.5 V DC. M...
- Typical Time to Read 16-bit Word: 4 mS using regis...
- Terminal Module: Screw type, removable, maximum wi...
- Appendix B HP E1459A Register Definitions
- Overview
- Addressing the Registers
- The following commands are sent to the HP E1406 Co...
- When using an embedded controller VXI A16 address ...
- For example, for the HP 75000 Series C Mainframe w...
- base address (h) = (logical addressh)*40h + C000h
- For the HP E1459A, the factory-set logical address...
- base address = (90h)*(40h) + C000h> = E400h
- register address = [A16 location]h + [base addr]h ...
- The following registers can be accessed on the HP ...
- ID register (base = 00h) is a read only register. ...
- * Returns FFFFh = Hewlett-Packard A16 (only) regis...
- Device Type register (base = 02h) is a read only r...
- NOTE: Bits 8 and 9 are returned in the IACK respon...
- WRITE R = Reset to power-on state by writing a "1"...
- READ E IRQ = When "1" it indicates that an INTRX l...
- INTRX = Edge interrupt for port 0 - 3. A "1" means...
- DAVX = Data available in Port 0 - 3. A "1" means t...
- DOGENAB = "0" the watchdog timer is disabled. "1" ...
- DOGSTATE = "0" the watchdog timer is not asserted....
- For reading and writing, when BS = 0 in the Status...
- EDGE ENAB = "1" allows an edge interrupt (INTR for...
- INT/EXT = "0" data will be latched using the inter...
- DAV ENAB = "1" allows the DAV0/2 line to cause an ...
- Channels 0 through 15 are accessed when BS = 0 in ...
- Channels 32 through 47 are accessed when BS = 1 in...
- For Positive/Negative Edge Detect and Mask Registe...
- For Positive/Negative Edge Detect and Mask Registe...
- When BS = 0 in the Status/Control Register, the de...
- When BS = 1 in the Status/Control Register, the de...
- The following table lists the actual values for th...
- Register Value
- Bit pattern (hex)
- Clock Frequency
- Clock Period
- Debounce Time (4 - 4.5 clock periods)
- 2 (or 0, default)
- 0002h
- 250 kHz
- 4 mS
- 16 - 18 mS
- 3 (or 1)
- 0003h
- 125 kHz
- 8 mS
- 32 - 36 mS
- 4
- 0004h
- 62.5 kHz
- 16 mS
- 64 - 72 mS
- 5
- 0005h
- 31.25 kHz
- 32 mS
- 128 - 144 mS
- 6
- 0006h
- 15.63 kHz
- 64 mS
- 256 - 288 mS
- 7
- 0007h
- 7.81 kHz
- 128 mS
- 512 - 576 mS
- 8
- 0008h
- 3.90 kHz
- 256 mS
- 1.0 - 1.13 mS
- 9
- 0009h
- 1.95 kHz
- 512 mS
- 2.0 - 2.26 mS
- 10
- 000Ah
- 976 Hz
- 1 mS
- 4.1 - 4.6 mS
- 11
- 000Bh
- 488 Hz
- 2 mS
- 8.2 - 9.2 mS
- 12
- 000Ch
- 244 Hz
- 4.1 mS
- 16.4 - 18.4 mS
- 13
- 000Dh
- 122 Hz
- 8.2 mS
- 32.8 - 36.9 mS
- 14
- 000Eh
- 61 Hz
- 16.4 mS
- 65.5 - 73.8 mS
- 15
- 000Fh
- 30.5 Hz
- 32.8 mS
- 131 - 148 mS
- 16
- 0010h
- 15.3 Hz
- 65.5 mS
- 262 - 294 mS
- 17
- 0011h
- 7.63 Hz
- 131 mS
- 524 - 59 mS
- 18
- 0012h
- 3.82 Hz
- 262 mS
- 1.05 - 1.16 S
- 19
- 0013h
- 1.91 Hz
- 524 mS
- 2.1 - 2.36 S
- 20
- 0014h
- 0.954 Hz
- 1.05 S
- 4.2 - 4.72 S
- 21
- 0015h
- 0.477 Hz
- 2.1 S
- 8.39 - 9.43 S
- 22
- 0016h
- 0.238 Hz
- 4.2 S
- 16.8 - 18.9 S
- 23
- 0017h
- 0.119 Hz
- 8.39 S
- 33.6 - 37.8 S
- 24
- 0018h
- 60.0 mHz
- 16.8 S
- 67.1 - 75 S
- 25
- 0019h
- 30.0 mHz
- 33.6 S
- 134 - 150 S
- 26
- 001Ah
- 15.0 mHz
- 67.1 S
- 268 - 300 S
- 27
- 001Bh
- 7.5 mHz
- 134 S
- 537 - 600 S
- 28
- 001Ch
- 3.7 mHz
- 268 S
- 1074 - 1200 S
- 29
- 001Dh
- 1.9 mHz
- 537 S
- 2147 - 2400 S
- 30
- 001Eh
- 931 mHz
- 1074 S
- 4295 - 4800 S
- 31
- 001Fh
- 465.5 mHz
- 2148 S
- 8590 - 9600 S
- Command Register Port 1/3
- Command Register Port 1/3 (base + 20h)
- For reading and writing, when BS = 0 in the Status...
- EDGE ENAB = "1" allows an edge interrupt (INTR for...
- INT/EXT = "0" data will be latched using the inter...
- DAV ENAB = "1" allows the DAV1/3 line to cause an ...
- Channels 16 through 31 are accessed when BS = 0 in...
- For Positive/Negative Edge Detect and Mask Registe...
- For Positive/Negative Edge Detect and Mask Registe...
- When BS = 0 in the Status/Control Register, the de...
- Register Value
- Bit Pattern (Hex)
- Clock Frequency
- Clock Period
- Debounce Time (4 - 4.5 Clock Periods)
- 2 (or 0 ) Default
- 0002h
- 250 kHz
- 4 mS
- 16 - 18 mS
- 3 (or 1)
- 0003h
- 125 kHz
- 8 mS
- 32 - 36 mS
- 4
- 0004h
- 62.5 kHz
- 16 mS
- 64 - 72 mS
- 5
- 0005h
- 31.25 kHz
- 32 mS
- 128 - 144 mS
- 6
- 0006h
- 15.63 kHz
- 64 mS
- 256 - 288 mS
- 7
- 0007h
- 7.81 kHz
- 128 mS
- 512 - 576 mS
- 8
- 0008h
- 3.90 kHz
- 256 mS
- 1.0 - 1.13 mS
- 9
- 0009h
- 1.95 kHz
- 512 mS
- 2.0 - 2.26 mS
- 10
- 000Ah
- 976 Hz
- 1 mS
- 4.1 - 4.6 mS
- 11
- 000Bh
- 488 Hz
- 2 mS
- 8.2 - 9.2 mS
- 12
- 000Ch
- 244 Hz
- 4.1 mS
- 16.4 - 18.4 mS
- 13
- 000Dh
- 122 Hz
- 8.2 mS
- 32.8 - 36.9 mS
- 14
- 000Eh
- 61 Hz
- 16.4 mS
- 65.5 - 73.8 mS
- 15
- 000Fh
- 30.5 Hz
- 32.8 mS
- 131 - 148 mS
- 16
- 0010h
- 15.3 Hz
- 65.5 mS
- 262 - 294 mS
- 17
- 0011h
- 7.63 Hz
- 131 mS
- 524 - 590 mS
- 18
- 0012h
- 3.82 Hz
- 262 mS
- 1.05 - 1.18 S
- 19
- 0013h
- 1.91 Hz
- 524 mS
- 2.1 - 2.36 S
- 20
- 0014h
- 0.954 Hz
- 1.05 S
- 4.2 - 4.72 S
- 21
- 0015h
- 0.477 Hz
- 2.1 S
- 8.39 - 9.43 S
- 22
- 0016h
- 0.238 Hz
- 4.2 S
- 16.8 - 18.9 S
- 23
- 0017h
- 0.119 Hz
- 8.39 S
- 33.6 - 37.8 S
- 24
- 0018h
- 60 mHz
- 16.8 S
- 67.1 - 75 S
- 25
- 0019h
- 30 mHz
- 33.6 S
- 134 - 150 S
- 26
- 001Ah
- 15 mHz
- 67.1 S
- 268 - 300 S
- 27
- 001Bh
- 7.5 mHz
- 134 S
- 537 - 600 S
- 28
- 001Ch
- 3.7 mHz
- 268 S
- 1074 - 1200 S
- 29
- 001Dh
- 1.9 mHz
- 537 S
- 2147 - 2400 S
- 30
- 001Eh
- 931 mHz
- 1074 S
- 4295 - 4800 S
- 31
- 001Fh
- 466 mHz
- 2147 s
- 8590 - 9600 s
- Power On/Reset Conditions
- Programming Examples
- Appendix C Error Messages
- Index
80 HP E1459A Register Definitions
Bit 14 is the MODID bit. When a "0" is returned in bit 14 then the module
has been selected with a high state on the P2 MODID line. If a "1" is
returned then the module has not been selected. This bit is read only.
Edge Interrupt
Status Register
The Edge Interrupt Status Register (base + 06
h
) indicates if an edge interrupt
has been detected for any of the 4 ports. There are 4 bits used in this register,
one for each port. A bit will remain asserted ("1") in this register until all
edge events for a port have been cleared. Bit 0 is used for Port 0, bit 1 for
Port 1, bit 2 for Port 2, and bit 3 for Port 3. These bits reflect the state of the
INTR lines available on the terminal module. The INTR lines will be
asserted when a bit is "1" in this register. This register has no effect if it is
written.
Edge Interrupt Status Register (base + 06h)
INTRX = Edge interrupt for port 0 - 3. A "1" means an edge event has been
detected within the corresponding port and a "0" means one hasn't. A bit set
to "1" will only return to "0" by reading the interrupt register that caused the
edge detection to occur.
Data Available
Status Register
The Data Available Status Register (base + 08
h
) indicates if an external
trigger has occurred for any of the 4 ports. There are 4 bits used in this
register, one for each port. A bit will be asserted when the DAV ENAB bit
and the INT/EXT bit are set ("1") in the command register for a port, and an
external trigger occurs. (An external trigger occurs on a negative edge). Bit
0 is used for Port 0, bit 1 for Port 1, bit 2 for Port 2, and bit 3 for Port 3.
These bits reflect the state of the DAV lines available on the terminal
module. The DAV lines will be asserted when a bit is "1" in this register.
This register has no effect if it is written.
Data Available Register (base + 08h)
DAVX = Data available in Port 0 - 3. A "1" means that new data has been
latched into the channel data register for that port. A "0" means it has not
been triggered yet. A bit set to "1" will only return to "0" by reading the
DAV register associated with that port.
b + 6
h
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Write No Effect
Read Always Returns FFF
h
INTR3 INTR2 INTR1 INTR0
b + 8
h
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Write No Effect
Read Always Returns FFF
h
DAV3 DAV2 DAV1 DAV0