Agilent 8924C Programmers Guide

HP 8924C CDMA Mobile Station Test Set
Condensed Programming Reference Guide
Firmware Version A.07.04 and above
CDMA CALL CONTROL
CALL ANS
USER DATA
CDMA SCRNS
CELL
k1’
CALL
k1
CTRL
k2’
SPECTRUM
GEN
k2
CTRL
k3’
k3
ANALOG SCRNS
ASSIGN
ENCODER
RF
k4
ANL
RELEASE
k5
SPEC ANL
RF
GEN
POWER
MAX PWR
DO NOT APPLY
!
RF WHEN OFF
RF IN/OUT
!
!
MAX PWR
200 mW
6 W
ANTENNA INDUPLEX OUT
HP Part No. 08924-90048
Printed in U. S. A.
November 1999
END CALL
RANGE
RX TEST
MSRPT
TX TEST
DECODER
RX TEST ACP TX TESTAFANL
SCOPE
DUPLEX
FUNCTIONS
MSG
PRINTER
HELP
PRINT
DATA FUNCTIONS
REF SET
METER
INCR
INCR
: 10
SET
LO LIMIT HI LIMIT
CURSOR CONTROL
CANCELSHIFT
I/O CONFIG CONFIG
PREV TESTS
AVG
INCR X10
PUSH TO SELECT
INSTRUMENT STATE
ADRS
RECALL
789
456 123 0
NO
YES
ppm
ON/OFF
W
AUDIO OUTSQUELCHVOLUMEMIC/ACC
MAX
!
12 v Pk
SAVE
HOLD
MEAS
PRESET
RESET
MEMOR Y CARD
ENTER
dB GHz dBm
%
MHz
V s
kHz
_
+
mV
ms
Hz
%
µV
dBµV
AUDIO IN
LOHI
MAX
!
42 v Pk
Rev. G
1
Copyright © Hewlett-Packard Company 1997
Notice Information contained in this document is subject to change without notice.
All Rights Reserved. Reproduction, adaptation, or translation without prior written permission is prohibited, except as allowed under the copyright laws.
This material may be reproduced by or for the U.S. Government pursuant to the Copyright License under the clause at DFARS 52.227-7013 (APR 1988).
Hewlett-Packard Company Learning Products Department 24001 E. Mission Liberty Lake, WA 99019-9599 U.S.A.
2
Manufacturer’s Declaration
This statement is provided to comply with the requirements of the German Sound Emission Directive, from 18 January 1991.
This product has a sound pressure emission (at the operator position) < 70 dB(A).
Sound Pressure Lp < 70 dB(A).
• At Operator Position.
• Normal Operation.
• According to ISO 7779:1988/EN 27779:1991 (Type Test).
Herstellerbescheinigung
Diese Information steht im Zusammenhang mit den Anforderungen der
Maschinenlärminformationsverordnung vom 18 Januar 1991.
• Schalldruckpegel Lp < 70 dB(A).
• Am Arbeitsplatz.
• Normaler Betrieb.
• Nach ISO 7779:1988/EN 27779:1991 (Typprüfung).
3
Safety Considerations
WARNING
GENERAL This product and related documentation must be reviewed for familiarization with
safety markings and instructions before operation. This product has been designed and tested in accordance with IEC Publication
1010, "Safety Requirements for Electronic Measuring Apparatus," and has been supplied in a safe condition. This instruction documentation contains information and warnings which must be followed by the user to ensure safe operation and to maintain the product in a safe condition.
SAFETY EAR T H GR O UN D A uninterruptible safety earth ground must be provided from the main power
source to the product input wiring terminals, power cord, or supplied power cord set.
CHASSIS GROUND TERMINAL To prevent a potential shock hazard, always connect the rear-panel chassis ground
terminal to earth ground when operating this instrument from a dc power source. SAFETY SYMBOLS Indicates instrument damage can occur if indicated operating limits are exceeded.
!
Indicates hazardous voltages. Indicates earth (ground) terminal
A WARNING note denotes a hazard. It calls attention to a procedure, practice, or the like, which, if not correctly performed or adhered to, could result in personal injury. Do not proceed beyond a WARNING sign until the indicated conditions are fully understood a nd met.
CAUTION
4
A CAUTION note denotes a ha zard. It calls att entio n to an opera tion proced ure, practice, or the like, which, if not correctly performed or adhered to, could result in damage to or destruction of part or all of the product. Do not proceed beyond an CAUTION note until the indicated co nditions are fully understood and met.
Safety Considerations for this Instrument
WARNING This product is a Safety Class I instrument (provided with a protective
earthing ground incorporated in the power cord). The mains plug shall only be inserted in a socket outlet provided w ith a protective earth co ntact. Any interruption of the protective conductor inside or outside of the product is likely to make the product dangerous. Intentional interruption is prohibited..
Whenever it is likely that the protection h as been imp aired, the instru ment must be made inoperative and be secured against any unintended operation.
If this instrument is to be energized via an auto transformer (for voltage reduction), make sure the common terminal is connected to the earth terminal of the power source.
If this produ ct is not use d as specified, the protection provided by the equipment could be impaired. This product must be used in a normal condition (in which all means for protection are intact) only.
No operator serviceable parts in this product. Refer servicing to qualified personnel. To prevent electrical shock, do not remove covers.
Servicing instructions are for use by qualified personnel only. To avoid electrical shock, do not perform any servicing unless you are qualified to do so.
The opening of covers or removal of parts is likel y to expose dangerous voltages. Disconnect the product from all voltage sources while it is bein g opened.
Adjustments described in the manual are performed with power supplied to the instrument while protective co vers are removed. Energy available at many points may, if contacted, result in perso nal injury.
The power cord is connected to internal capacitors that my remain live for 5 seconds after disconnecting the plug from its power supply.
For Continued protection against fire hazard, replace the line fuse(s) only with 250 V fuse(s) or the same current rating and type (for example, normal blow or time delay). Do not use repaired fuses or short circuited fuseholders.
5
CAUTION: Always use the three-prong ac power cord supplied with this prod uct. Failure to ensure
adequate earth grounding by not using this cord may cause product damage. This product is designed for use in Install atio n Cate gory II and P ollutio n Degree
2 per IEC 1010 and IEC 664 respectively. This product has autoranging line voltage input, be sure the supply voltage is
within the specified range. Ventilation Requirements: When installing the product in a cabinet, the
convection into and out of the product must not be restricted. The ambient temperature (outside the cabinet) must be less than the maximum opera ting
temperature of the product by 4° C for every 100 watts dissipa ted in the c abinet. If the total power dissipated in the cabinet is greater than 800 watts, then forced convection must be used.
Product Markings CE - the CE mark is a registered trademark of the European Community. A CE
6
mark accompanied by a year indicated the year the design was proven. CSA - the CSA mark is a registered trademark of the Canadian Standards
Association.
CERTIFICATION Hewlett-Packard Company certifies that this product met its published
WARRANTY This Hewlett-Packard instrument product is warranted against defects in material
LIMITATION OF WARRANTY
EXCLUSIVE REMEDIES
ASSISTANCE Product maintenance agreements and other customer assistance agreements are
specifications at the time of shipment from the factory. Hewlett-Packard further certifies that its calibration measurements are traceable to the United States National Institute of Standards and Technology, to the extent allowed by the
Institute’s calibration facility, and to the calibration facilities of other International Standards Organization members
and workmanship for a period of one year from date of shipment. During the warranty period, Hewlett-Packard Company will at its option, either repair or replace products which prove to be defective.
For warranty service or repair, this product must be returned to a service facility designated by HP. Buyer shall prepay shipping charges to HP and HP shall pay shipping charges, duties, and taxes for products returned to HP from another country.
HP warrants that its software and firmware designated by HP for use with an instrument will execute its programming instructions when properly installed on that instrument. HP does not warrant that the operation of the instrument, or software, or firmware will be uninterrupted or error free.
The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by Buyer, Buyer-supplied software or interfacing, unauthorized modification or misuse, operation outside of the environmental specifications for the product, or improper site preparation or maintenance.
NO OTHER WARRANTY IS EXPRESSE D OR IMPLIED. HP SPECIFICAL LY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
THE REMEDIES PROVIDED HEREIN ARE BUYER’S SOLE AND EXCLUSIVE REMEDIES. HP SHALL NOT BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, WHETHER BASE ON CONTRACT, TORT, OR ANY OTHER LEGAL THEORY.
available for Hewlett-Packard products. For any assistance, contact your nearest Hewlett-Packard Sales and Service Office.
7
DECLARATION OF CONFORMITY
according to ISO/IEC Guide 22 and EN 45014
Manufacturer’s Name:
Manufacturer’s Address:
declares that the product
Product Name: Model Number: Product Options:
conforms to the following Product specifications:
Safety: IEC 1010-1:1990+A1 / EN 61010-1:1993 EMC: CISPR 11:1990/EN 55011:1991- Group 1, Class A
EN 50082-1 : 1992
IEC 801-3:1984 3V/m
Supplementary Information:
This product herewith complies with the requirements of the Low Voltage Directive 73/23/EEC and the EMC Directive 89/336/EEC and carries the CE-marking accordingly.
Spokane, Washington USA October 17, 1996
European Contact: Your local Hewlett-Packard Sales and Service Office or Hewlett-Packard GmbH Department ZQ/Standards Europe, Herrenberger Strasse 130, D-71034 Böblinger, Germany (FAX+49-7031-14-3143)
IEC 801-2:1991 - 4kV CD,8kV AD IEC 801-4:1988 0.5 kV Sig. Lines, 1 kV Power Lines
Hewlett-Packard Co. Spokane Division
24001 E. Mission Avenue Liberty Lake, Washington 99019-9599 USA
CDMA Mobile Station Test Set HP 8924C
This declaration covers all options of the above product.
Vince Roland Reliability & Regulatory Engineering Manag er
8
HP 8924C Support Contacts
The documentation supplied with your test set is an excellent source of reference, applications, and service information. Please use these manuals if you are experiencing technical problems:
• Applications information is included in the HP 8924C CDMA Mobile Station Test Set Application Guide (HP P/N 08924-90021)
• Calibration and rep air informati on are in t he HP 8924C CD MA Mobile Sta tion Test Se t Assembly Level Repair Manual - this manual (HP P/N 08924-90001).
If you have used the manuals and still have application questions, contact your local HP Sales Representative.
Repair assistance is available for the HP 8924C CDMA Mobile Test Set from the factory by phone and e-mail. Internal Hewlett-Packard users can contact the factory through HP Desk or cc:Mail© (Lotus Corporation). Parts information is also available from Hewlett ­Packard.
When calling or writing for repair assistance, please have the following information ready:
• Instrument model number (HP 8924C)
• Instrument Serial Number (tag located on the rear panel).
• Installed options - if any (tag located on the rear panel).
• Instrument firmware revision (displayed at the top of the screen when the Test Set is powered up, and is also displayed on the CONFIGURE screen).
Support Telephone
Electronic mail (Internet): Spokane_Service@spk.hp.com HP Desk: Spokane Service / HP1000/21 cc:Mail: SERVICE, SPOKANE /HP-Spokane,desk1
Numbers:
1 800 827 3848 (Spokane Division Service Assistance, U.S. only) 1 509 921 3848 (Spokane Division Service Assistance, International) 1 800 227 8164 (HP Direct Parts Ordering, U.S. only) 1 916 783 0804 (HP Service Parts Identification, U.S. & Intl.)
9
Table 1 Regional Sales and Service Offices
Eastern USA Sales Office Hewlett-Packard Company 2101 Gather Rd. Rockville, MD 20850 Tel: (301) 258-2000
Southern USA Sales and Service Hewlett-Packard Company 1995 North Park Place Atlanta, GA 30339
Sales Tel: (404) 955-1500 Fax: (404) 980-7292
Service Tel: (404) 850-2544 Fax: (404) 980-7292
Western USA Sales and Service Hewlett-Packard Company 24 Inverness Place East Englewood, CO 80112
Sales Tel: (303) 649-5000 Fax: (303) 649-5787
Service Tel: (303) 649-5512 Fax: (303) 649-5787
South Eastern Europe Sales and Service Hewlett-Packard Ges. m.b.h. Liebigasse 1 P.O. Box 72 A-1222 Vienna, Austria
Telephone: 43 222 2500 0 Telex: 13 4425
Eastern USA Service Center Hewlett-Packard Company 150 Green Pond Road Rockaway, NJ 07866 Tel: (201) 586-5400
Southern USA Service Center Hewlett-Packard Company 930 E. Campbell Road Richardson, TX 75081 Tel: (214) 699-4331
Western USA Sales and Service Hewlett-Packard Company 1421 South Manhattan Avenue Fullerton, CA 92631
Sales Tel: (714) 999-6700 Fax: (714) 778-3033
Service Tel: (714) 758-5490 Fax: (714) 778-3033
European Multicountry Region Sales and Service Hewlett-Packard S.A. P.O. Box 95 150, Route dv Nant_dl_AVRIL CH-1217 Meyrin 2 Geneva, Switzerland
Telephone: (41/22) 780-8111 Fax: (41/22) 780-8542
Midwestern USA Sales and Service Hewlett-Packard Company 5201 Tollview Drive Rolling Meadows, IL 60008 Tel: (708) 342-2000
Western USA Service Center Hewlett-Packard Company 301 E. Evelyn Avenue Mountain View, CA 94041 Tel: (415) 694-2000 Fax: (415) 694-0601
United States of America Customer Information Center Hewlett-Packard Company Tel: (800) 752-0900
6:00 am to 5:00 pm Pacific Time Parts Direct: 1-800-227-8164
Northern Europe Sales and Service Hewlett-Packard Nederland B.V. Startbaan 16 1187 XR Amstelveen, The Netherlands P.O. Box 667
Telephone: 31/20 5476911 X 6631 Fax: 31-20-6471825NL
10
Table 1 Regional Sales and Service Offices (Con tinued)
Asia Sales and Service Hewlett-Packard Asia Ltd. 22-30/F Pe regrine Tower Lippo Center 89 Queensway, Central Hong Kong G.P.O. Box 863 Hong Kong
Telephone: 852-848-7777 Fax: 852-868-4997
Australia, New Zealand Sales and Service Hewlett-Packard Ltd. P.O. Box 221 31-41 Joseph Street Blackburn, Victoria 3130
Telephone: (61/3) 895-2895 Fax: (61/3) 898-9257
Canada Service Center Hewlett-Packard Ltd. 11120 178 Street Edmonton, Alberta T5S 1P2 Canada
Telephone: (403) 486-6666 Fax: (403) 489-8764
Japan Hewlett-Packard Japan, Ltd. Measurement Assistance Center 9-1, Takakura-Cho Hachioji-Shi Tokyo 192-8510, Japan
Telephone: (81)-426-56-7832 Fax: (81)-426-56-7840
Canada Sales and Service Hewlett-Packard (Canada) Ltd. 5150 Spectrum Way Mississauga, Ontario L4W 5G1 Canada
Telephone: (416) 206-4725 Fax: (416) 206-4739
Latin America Hewlett-Packard Company LAHQ Mexico City Col. Lomas de Virreyes 11000 Mexico D.F. Mexico
Telephone: (52/5) 326-4000 Fax: (52/5) 202 7718
International Sales Branch Headquarters Sales and Service Hewlett-Packard S.A. 39 Rue Veyrot P.O. Box 365 1217 Meyrin 1 Geneva, Switzerland
Telephone: 41-22-780-4111 Fax: 41-22-780-4770
Canada Service Center Hewlett-Packard Company 17500 Transcanada Highway S. Serv Road Kirkland, Quebec H9J 2X8 Canada
Telephone: (416) 206-3295 United Kingdom
Sales and Service Hewlett-Packard Ltd. Cain Road Amen Corner Bracknell, Berkshire RG12 1HN United Kingdom
Telephone: 44 344 360000 Fax: 44 344 363344
11
12
Contents
Remote/Local Modes
1
Remote/Local Modes 22
13
Contents
HP-IB Command Syntax
2
HP-IB Command Syntax Listings 26
Adjacent Channel Power (ACP) 29
AF Analyzer 31
AF Generator 1 37
AFGenerator2|Encoder 39
AF Generator 2 Pre-Modulation Filters 59
CALL Process 61
CDMA 103
CELL 127
Configure 129
CSPectrum 141
Decoder 145
Display 151
Measure 153
Oscilloscope 169
Program 175
RF Analyzer 177
RF Generator 179
Spectrum Analyzer 183
14
Contents
Save/Recall Registers 185
Special (HP-IB Only Commands) 187
Status 193
System 201
Tests 203
Trigger 207
Integer Number Setting Syntax 209
Real Number Setting Syntax 211
Multiple Real Number Setting Syntax 213
Number Measurement Syntax 215
Multiple Number Measurement Syntax 217
15
Contents
HP-IB Common Commands
3
IEEE 488.2 Common Commands 220
Common Command Descriptions 221
16
Contents
Remote Capabilities
4
Remote Operating Capabilities 232
Remote Interface Functions 233
17
Contents
Display Field Cross-Reference
5
Fields That Begin with the Letter A 238
Fields That Begin with the Letter B 245
Fields That Begin with the Letter C 247
Fields That Begin with the Letter D 253
Fields That Begin with the Letter E 257
Fields That Begin with the Letter F 260
Fields That Begin with the Letter G 262
Fields That Begin with the Letter H 263
Fields That Begin with the Letter I 264
Fields That Begin with the Letter K 266
Fields That Begin with the Letter L 267
Fields That Begin with the Letter M 268
Fields That Begin with the Letter N 275
Fields That Begin with the Letter O 278
Fields That Begin with the Letter P 280
Fields That Begin with the Letter R 286
Fields That Begin with the Letter S 292
Fields That Begin with the Letter T 299
Fields That Begin with the Letter V 305
18
Contents
Fields That Begin with the Letter W 306
Fields That Begin with the Letter X 307
Fields That Begin with a Number 308
19
Contents
Index 309
20
1

Remote/Local Modes

21

Remote/Local Modes

Remote/Local Modes

Control Annunciators

The letters and symbols at the top right corner of the display indicate these conditions:
•R indicates the Test Set is in remote mode. The Test Set can be put into the remote mode by an external controller or by an IBASIC program running on the built-in IBASIC con­troller.
•L indicates the Test Set has been addressed to Listen.
•T indicates the Test Set has been addressed to Talk.
•S indicates the Test Set has sent the Require Service message by setting the Service Re­quest (SRQ) bus line true.
•C indicates the Test Set is currently the Active Controller on the bus.
•* indicates an IBASIC program+ is running.
•? indicates an IBASIC program is waiting for a user response.
•- indicates an IBASIC program is paused.

Remote Mode

In Remote mode all front panel keys are disabled (except for the LOCAL key, POWER switch, Volume control and Squelch control). The LOCAL key is only disabled by the Local Lockout bus command. When in Remote mode and addressed to Listen the Test Set responds to the Data, Remote, Local, Clear(SDC),
and Trigger messages. When the Test Set is in Remote mode, the “R” annunciator will be displayed in the upper right corner of the display screen and triggering is set to the state it was last set to in Remote mode (if no previous setting the default is FULL SETTling and REPetitive RETRiggering). When the Test Set is being addressed to Listen or Talk the “L” or “T” annunciators will be displayed in the upper right corner of the display screen.

Local Mode

In Local mode the Test Set’s front panel controls are fully operational. The Test Set uses FULL SETTling and REPetitive RETRiggering in Local mode. When the Test Set is being addressed to Listen or Talk the “L” or “T” annunciators will be displayed in the upper right corner of the display screen.

Remote or Local Mode

When addressed to Talk in Remote or Local mode , the Test Set can issue the Data and Status Byte messages and responds to the Take Control message. In addition the Test Set can issue the Service Request Message (SRQ). Regardless of whether it is addressed to talk or listen, the Test Set will respond to the Clear(DCL), Local Lockout, Clear Lockout/Set Local, and Abort messages.
22
22
S:\HP8924C\QK_REF\BOOK\CHAPTERS\remmodes.fb
Remote/Local Modes

Local To Remote Transitions

The Test Set switches from Local to Remote mode upon receipt of the Remote message (REN bus line true and Test Set is addressed to listen). No instrument settings are changed by the transition from Local to Remote mode, but triggering is set to the state it was last set to in Remote mode (if no previous setting the
default is FULL SETTling and REPetitive RETRiggering). The “R” annunciator in the upper right corner of the display is turned on.
When the Test Set makes a transition from local to remote mode all currently active measurements are flagged as invalid causing any currently available measurement results to become unavailable. If the HP-IB trigger mode is RETR:REP then a new measurement cycle is started and measurement results will be available for all active measurements when valid results have been obtained. If the HP-IB trigger mode is RETR:SING then a measurement cycle must be started by issuing a trigger event.
Refer to “Triggering Analog Measurements in Remote Mode (HP-IB Operation)” or
“Triggering CDMA Measurements in Remote Mode (HP-IB Operation)” in Measurement Triggering
Process chapter of the HP 8924C User’s Guide.

Remote To Local Transitions

The Test Set switches from Remote to Local operation (full front panel control) upon receipt of the Local message (Go To Local (GTL) bus message and Test Set is addressed to listen) or the Clear Lockout/Set Local message (REN bus line false). No instrument settings are changed by the transition from Remote to
Local mode, but triggering is reset to FULL SETTling and REPetitive RETRiggering. The “R” annunciator in the upper right corner of the display is turned off.
If it is not in Local Lockout mode the Test Set switches from Remote to Local mode whenever the front­panel LOCAL key is pressed.
If the Test Set was in Local Lockout mode when the Local message was received, front-panel control is returned, but Local Lockout mode is not cleared. Unless the Test Set receives the Clear Lockout/Set Local message, the Test Set will still be in Local Lockout mode the next time it goes to the Remote mode.

Local Lockout

The Local Lockout mode disables the front-panel LOCAL key and allows return to Local mode only by commands from the System Controller (Clear Lockout/Set Local message).
When a data transmission to the Test Set is interrupted, which can happen if the LOCAL key is pressed, the data being transmitted may be lost. This can leave the Test Set in an unknown state. The Local Lockout mode prevents loss of data or system control due to someone unintentionally pressing front-panel keys.
23
S:\HP8924C\QK_REF\BOOK\CHAPTERS\remmodes.fb
Remote/Local Modes
NOTE: Return to Local mode can also be accomplished by setting the POWER switch to OFF and
back to ON. However, returning to Local mode in this way has the following disadvantages:
1. It defeats the purpose of the Local Lockout mode in that the Active Controller will loose
control of the Test Set,.
2. Instrument configuration is reset to the power up condition thereby loosing the
instrument configuration se t by the Active Controller.

Clear Lockout/Set Local

The Test Set returns to Local mode (full front panel control) when it receives the Clear Lockout/Set Local message. No instrument settings are changed by the transition from Remote mode with Local Lockout to Local mode but triggering is reset to FULL SETTling and REPetitive RETRiggering.
24
24
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2

HP-IB Command Syntax

25

HP-IB Command Syntax Listings

HP-IB Command Syntax Listings
Instrument Command Syntax Listings
"Adjacent Channel Power (ACP)" on page 29. "AF Analyzer" on page 31 "AF Generator 1" on page 37 "AF Generator 2 Pre-Modulation Filters" on page 59 "AFGenerator2|Encoder" on page 39 "CALL Process" on page 61 "CDMA" on page 103 "CELL" on page 127 "CSPectrum" on page 141 "Decoder" on page 145 "Oscilloscope" on page 169 "RF Analyzer" on page 177 "RF Generator" on page 179 "Spectrum Analyzer" on page 183
Instrument Number Setting Command Syntax Listings
"Integer Nu mber Setting Sy n t ax" on page 209. "Real Number Setting Syntax" on page 211 "Multiple Real Number Setting Syntax" on page 213
Measurement Command Syntax Listings
"Measure" on page 153. "Trigger" on page 207
Measurement Number Setting Command Syntax Listings
"Number Measurement Syntax" on page 215. "Multiple Number Measurement Syntax" on page 217
Instrument Function Command Syntax Listings
"Configure" on page 129. "Display" on page 151 "Program" on page 175 "Save/Recall Registers" on page 185 "Status" on page 193 "System" on page 201 "Tests" on page 203
HP-IB Only Command Syntax Listings
"Special (HP-IB Only Commands)" on page 187.
.
.
.
.
.
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.
.
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.
.
26
26
S:\HP8924C\QK_REF\BOOK\CHAPTERS\syntax2.fb
HP-IB Command Syntax Listings

Command Listing Conventions

Command listings are used to define the Test Set’s HP-IB commands. The listing shows the commands, their hierarchical relationships, related parameters (if any), and associated notes (if any).
The Test Set’s commands are based upon a hierarchical structure, also known as a tree system. In such a system, associated commands are grouped together under a common node in the hierarchy, analogous to the way leaves at a same level are connected at a common branch. This and similar branches are connected to fewer and thicker branches, until they meet at the root of the tree. The closer to the root, the higher a node is considered in the hierarchy.
The command listing is divided into columns, as indicated by light gray vertical lines. The root node is the leftmost column. Lower nodes in the hierarchy are indented one position to the right, below the root node. To obtain a particular command, the full path to it must be specified. For example: to set the low side of the audio input on the Audio Analyzer to float you would generate the following command:
:AFANalyzer:AIN ’Float’
:AFANalyzer
:AIN ’Gnd’
’Float’ ’600 to Hi’
:AIN? (Returns quoted string)
:ELResistor (See Real Number Setting Syntax, :STATe not included)
Directs the user to a specific Instrument Command, Measurement Command, or Number Setting Command syntax listing. Notes indicate which, if any, Number Setting Command s are not supported by this particular path.
Square brackets([]) are used to enclose a keyword that is optional when programming the command; that is, the Test Set will process the command to have the same effect whether the option keyword is omitted by the programmer or not.
Letter case (uppercase or lowercase) in listings is used to differentiate between the accepted short form (the uppercase characters) and the long form (the whole keyword). The Test Set accepts only the exact short and the exact long forms. Sending a keyword that is not the exact short form or the exact long form will generate an error.
In the parameter section of the listing a number of characters have special significance. Square brackets ([]) are used to enclose one or more parameters that are optional when controlling the Test Set. Braces({}), or curly brackets, are used to enclose one or more parameters that may be included zero or more times. The vertical bar (|) can be read as “or” and is used to separate alternative parameter options.
27
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HP-IB Command Syntax Listings
The query form of a command is generated by appending a question mark to the last keyword. However, not all commands have a query form, and some commands exist only in the query form. The listings include, where applicable, the command form and the query form of each command.
CAUTION: When changing a field’s setting, a space must always precede the setting value in the
command string, regardless of the field type. For example:
:RFG:FREQ<space>850MHZ :EFG:ATT<SPACE>’On’
Improper punctuation will result in the following error:
HP-IB Error: -102 Syntax Error.
28
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Adjacent Channel Power (ACP)

Adjacent Channel Power (ACP)
:ACPower
:CBW|CBANdwidth (See "Real Number Setting Syntax" on page 211, :STATe not
:COFFset (See "Real Number Setting Syntax" on page 211, :STATe not included)
included)
HIS COMMAND SETS THE BANDWIDTH OF THE CARRIER AND ADJACENT
T
CHANNELS TO BE MEASURED IN ADJACENT CHANNEL POWER MEASUREMENTS.
HE CHANNEL BW FIELD IS FOUND ON THE ADJACENT CHANNEL POWER
T
SCREEN.
HIS COMMAND SETS THE FREQUENCY DIFFERENCE BETWEEN THE TUNE FREQ OR RF
T
HANNEL FIELD SETTINGS AND THE CENTER OF THE ADJACENT CHANNEL TO BE
C
MEASURED IN ADJACENT CHANNEL POWER MEASUREMENTS. THE CH OFFSET FIELD IS FOUND ON THE ADJACENT CHANNEL POWER SCREEN.
:MEASurement ’Ratio’
:MEASurement? (Returns quoted string)
:RBW|RBANdwidth ’300 Hz’
:RBW?|RBANdwidth? (Returns quoted string)
:RMODulation ’Unmod’
:RMODulation? (Returns quoted string)
’Level’
HESE COMMANDS SET/QUERY THE FORMAT FOR DISPLAYING ADJACENT
T
CHANNEL POWER MEASUREMENTS. THE ACP MEAS FIELD IS FOUND ON THE
ADJACENT CHAN NE L PO WER SCREEN
’1 kHz’
HESE COMMANDS SET/QUERY THE RESOLUTION BANDWIDTH FOR ADJACENT CHANNEL POWER
T
MEASUREMENTS. THE RES BW FIELD IS FOUND ON THE ADJACENT CHAN NE L POWER SCREEN.
’Mod’
HESE COMMANDS SET/QUERY THE CARRIER REFERENCE SETTING, INDICATING WHETHER
T
THE CARRIER BEING MEASURED DURING ADJACENT CHANNEL POWER REFERENCE MEASUREMENTS WILL BE UNMODULATED OR MODULATED. THE CARRIER REF FIELD IS FOUND ON THE ADJACENT CHANNEL POWERSCREEN.
29
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Adjacent Channel Power (ACP)
30
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AF Analyzer

:AFANalyzer
:AIN ’Gnd’
’Float’ ’600 to Hi’
:AIN? (Returns quoted string)
:CURRent
[:ZERO]
:DEMPhasis ’750 us’
:DEMPhasis? (Returns quoted string)
:GAIN ’0 dB’
:GAIN? (Returns quoted string)
HESE COMMANDS SET/QUERY THE INPUT STATE OF THE AUDIO IN (LO)
T
CONNECTOR. THE AUDIO IN LO FIELD IS FOUND ON THE AF ANALYZER screen.
HIS COMMAND ZEROES THE DC CURRENT MEASUREMENT. THE DC CURRENT
T
FIELD IS FOUND ON THE AF ANALYZER SCREEN.
’Off’
HESE COMMANDS SET/QUERY THE STATE OF DE-EMPHASIS NETWORKS IN THE AUDIO
T
ANALYZER AND SPEAKER CIRCUITRY. THE DE-EMPHASIS FIELD IS FOUND ON THE AF
NALYZER screen.
A
’10 dB’ ’20 dB’ ’30 dB’
HESE COMMANDS SET/QUERY THE AF ANALYZER DE-EMPHASIS AMPLIFIER GAIN. THE
T DE-EMP GAIN FIELD IS FOUND ON THE AF ANALYZER screen.
AF Analyzer
31
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AF Analyzer
:AFAN
:DETector ’RMS’
:DETector? (Returns quoted string)
’RMS*SQRT2’ ’PK+’ ’PK-’ ’PK+-/2’ ’PK+-MAX’ ’PK+ HOLD’ ’PK- HOLD’ ’PK+-/2 Hd’ ’PK+-MX Hd’
HESE COMMANDS SET/QUERY THE TYPE OF DETECTOR USED WHEN MEASURING AND
T
DISPLAYING AF SIGNAL LEVELS. THE DETECTOR FIELD IS FOUND ON THE AF
NALYZER screen.
A
:PKLocation ’Filters’
:PKLocation? (Returns quoted string)
:SETTling ’Fast’
:SETTling? (Returns quoted string)
:ELResistor (See "Real Number Setting Syntax" on page 211, :STATe not
’De-Emp’
HESE COMMANDS SET/QUERY THE SIGNAL SOURCE FOR THE PEAK DETECTOR
T
MEASUREMENTS. THE PK DET TO FIELD IS FOUND ON THE AF ANALYZER
screen.
’Slow’
HESE COMMANDS SET/QUERY THE SETTLING TIME FOR AUDIO MEASUREMENTS.
T
SE “FAST” WHEN MEASURING SIGNALS GREATER THAN 200 HZ). THE
(U
SETTLING FIELD IS FOUND ON THE AF ANALYZERscreen.
included, valid range 1 ohm to 1 megohm)
HIS COMMAND SETS THE EXTERNAL LOAD RESISTANCE FOR MEASUREMENTS USING
T
THE AUDIO IN CONNECTORS. THE EXT LOAD R FIELD IS FOUND ON THE AF
NALYZER screen.
A
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:AFAN
:FILTER1|FILT1 ’<20Hz HPF’
:FILTER1?|FILT1? (Returns quoted string)
’50HZ HPF’ ’300Hz HPF’ ’C MESSAGE’
HESE COMMANDS SET/QUERY THE AUDIO FILTER 1 SELECTION. THE
T FILTER 1 FIELD IS FOUND ON THE AF ANALYZERscreen.
AF Analyzer
:FILTER2|FILT2 ’300Hz LPF’
:FILTER2?|FILT2? (Returns quoted string)
:GTIMe (See "Real Number Setting Syntax" on page 211, :STATe not included, valid
:INPut ’FM Demod’
:INPut? (Returns quoted string)
’3kHz LPF’ ’15kHz LPF’ ’>99kHz LP’ ’6khz BPF’
HESE COMMANDS SET/QUERY THE AUDIO FILTER 2 SELECTION. THE
T FILTER 2 FIELD IS FOUND ON THE AF ANALYZERscreen.
HIS COMMAND SETS THE GATE TIME (HOW LONG THE AF COUNTE R SAMPLES THE INPUT
T
SIGNAL) FOR THE AUDIO FREQUENCY COUNTER. THE AF CNT GATE FIELD IS FOUND ON THE AF ANALYZER screen.
’AM Demod’ ’SSB Demod’ ’Audio In’ ’Radio Int’ ’Ext Mod’ ’Mic Mod’ ’FM Mod’ ’AM Mod’ ’Audio Out’
HESE COMMANDS SET/QUERY THE INPUT TO THE AUDIO ANALYZER. THE
T AF ANL IN FIELD IS FOUND ON THE AF ANALYZERscreen.
range 10 mS to 1 S)
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AF Analyzer
:AFAN
:GAIN ’0 dB’
’20 dB’ ’40 dB’
:GAIN? (Returns quoted string)
HESE COMMANDS SET/QUERY THE INPUT GAIN SETTING FOR THE AUDIO ANALYZER. THE
T INPUT GAIN FIELD IS FOUND ON THE AF ANALYZERscreen.
:SMPoint ’De-Emp ’
:SMPoint? (Returns quoted string)
:NOTCh :GAIN ’0 dB’
:GAIN? (Returns quoted string)
:FREQuency (See "Real Number Setting Syntax" on page 211, :STATe not
:RANGing 'Auto'
:RANGing? (Returns quoted string)
’Filters’ ’Input’ ’Notch’
HESE COMMANDS SET/QUERY THE SIGNAL SOURCE FOR THE OSCILLOSCOPE. THE
T SCOPE TO FIELD IS FOUND ON THE AF ANALYZERscreen.
’10 dB’ ’20 dB’ ’30 dB’ ’40 dB’
HESE COMMANDS SET/QUERY THE GAIN OF THE AF ANALYZER’S NOTCH FILTER
T
AMPLIFIER (USED FOR MAKING SINAD MEASUREMENTS). THE NOTCH GAIN FIELD IS FOUND ON THE AF ANALYZERscreen.
included, valid range 300 Hz to 10 kHz)
HIS COMMAND SETS THE CENTER FREQUENCY FOR THE VARIABLE FREQUENCY NOTCH
T
FILTER. THE NOTCH FREQ FIELD IS FOUND ON THE AF ANALYZERscreen.
'Hold'
HESE COMMANDS SET/QUERY THE GAIN CONTROL MODE OF THE AF ANALYZER’S
T
NOTCH FILTER AMPLIFIER (USED FOR MAKING SINAD MEASUREMENTS). THE NOTCH
GAIN FIELD IS FOUND ON THE AF ANALYZERscreen .
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:AFAN
:SPEaker :MODE ’On’
:MODE? (Returns quoted string)
:VOLume 'Pot'
:VOLume? (Returns quoted string)
’Off’
HESE COMMANDS SET/QUERY THE GAIN CONTROL MODE OF THE AF ANALYZERS
T
NOTCH FILTER AMPLIFIER (USED FOR MAKING SINAD MEASUREMENTS). THE NOTCH
GAIN FIELD IS FOUND ON THE AF ANALYZERscreen .
'Off'
HESE COMMANDS SET/QUERY THE SPEAKER VOLUME, WHICH IS CONTROLLED BY THE
T VOLUME KNOB WHEN “POTIS SELECTED. THESPEAKER VOL FIELD IS FOUND ON THE AF ANALYZER screen.
AF Analyzer
35
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AF Analyzer
36
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AF Generator 1

:AFGENERATOR1|AFG1
:AM (See "Real Number Setting Syntax" on page 211)
:DESTination ’AM’
:DESTination? (Returns quoted string)
:FM (See "Real Number Setting Syntax" on page 211)
:FREQuency (See "Real Number Setting Syntax" on page 211, :STATe not
:OUTPut (See "Real Number Setting Syntax" on page 211)
’FM’ ’Audio Out’
included)
AF Generator 1
37
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AF Generator 1
38
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AFGenerator2|Encoder

:AFGENERATOR 2| AF G2|ENCoder
:AM (See "Real Number Setting Syntax" on page 211)
:DESTination ’AM’
:DESTination? (Returns quoted string)
:FM (See "Real Number Setting Syntax" on page 211)
:FREQuency (See "Real Number Setting Syntax" on page 211, :STATe not
:OUTPut (See "Real Number Setting Syntax" on page 211)
:BURSt (See "Integer Number Setting Syntax" on page 209)
:MODE ’Func Gen’
:MODE? (Returns quoted string)
’FM’ ’Audio Out’
’Tone Seq’ ’DTMF’ ’CDCSS’ ’Digi Page’ ’AMPS-TACS’ ’NAMP-NTAC’ ’NMT’ ’MPT 1327’ ’LTR’ ’EDACS’
included)
AFGenerator2|Encoder
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AFGenerator2|Encoder
:AFG2
:PEMPhasis ’On’
:PEMPhasis? (Returns quoted string)
:POLarity ’Norm’
:POLarity? (Returns quoted string)
:SEND
:MODE ’Single’
:MODE? (Returns quoted string)
’Off’
’Invert’
’Burst’ ’Cont’ ’Step’
:STOP
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:AFG2
AFGenerator2|Encoder
:AMPS|TACS
:BUSY ’Idle’
’Busy’ ’WS Delay’ ’1stBitDly’
:BUSY? (Returns quoted string)
:DELay (See "Integer Number Setting Syntax" on page 209, valid range: 0
-254)
:CHANnel ’Cntl’
:CHANnel? (Returns quoted string)
:DUTest ’Mobile’
:DUTest? (Returns quoted string)
:DATA
:AM (See "Real Number Setting Syntax" on page 211)
’Voice’
’Cell’
:FM (See "Real Number Setting Syntax" on page 211)
:LEVel (See "Real Number Setting Syntax" on page 211)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not
included)
:FILLer
:DATA1 ’<character_data>’ (7 chars required, valid chars:)
:DATA1? (Returns quoted string)
:DATA2 ’<character_data>’ (7 chars required, valid chars:)
:DATA2? (Returns quoted string)
0123456789ABCDEF
0123456789ABCDEF
:SEND
:STOP
41
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
AFGenerator2|Encoder
:AFG2
:AMPS|TACS
:FVCMessage ’<character_data>’ (7 chars required, valid chars:)
:FVCMessage? (Returns quoted string)
:MESSage
:DATA1 ’<character_data>’ (112 chars max in 7 char increments)
:DATA1? (Returns quoted string)
:DATA2 ’<character_data>’ (112 chars max in 7 char increments)
:DATA2? (Returns quoted string)
:SAT :AM (See "Real Number Setting Syntax" on page 211)
(valid chars: 0123456789ABCDEF)
(valid chars: 0123456789ABCDEF)
0123456789ABCDEF
:FM (See "Real Number Setting Syntax" on page 211)
:FREQuency (See "Real Number Setting Syntax" on page 211, :STATe not
included)
:LEVel (See "Real Number Setting Syntax" on page 211)
:STANdard ’AMPS’
:STANdard? (Returns quoted string)
’TACS’ ’JTACS’
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AFGenerator2|Encoder
:AFG2
:CDCSs
:CODE ’<character_data>’ (2 char min, 3 char max, valid chars: 0 thru 7) :CODE? (Returns quoted string)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
:STANdard ’CDC SS ’ :STANdard? (Returns quoted string)
:TOCTime (See "Real Number Setting Syntax" on page 211, :STATe not
included) (valid range: 0-32000)
43
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AFGenerator2|Encoder
:AFG2 :DPAGing
:CODE ’<character_data>’ (6 chars max, valid chars: 0 thru 9)
:CODE? (Returns quoted string)
:EBIT (See "Integer Number Setting Syntax" on page 209, valid range: 0
-1500)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
:STANdard ’GSC’
:STANdard? (Returns quoted string)
’POCSAG’
:MLENgth (See "Integer Nu mb e r Setting Syntax " on pa ge 209, valid range:
1-60)
44
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
:AFG2
AFGenerator2|Encoder
:DPAG
:GSC
:FUNCtion (See "Integer Number Setting Syntax" on page 209, vali d range:
:TYPE 'Tone-Only'
:TYPE? (Returns quoted string)
:FUNCtion '00'
:FUNCtion? (Returns quoted string)
:TYPE 'Tone-Only'
:TYPE? (Returns quoted string)
1-4)
:MESSage ’<character_data>’(60 chars max, valid chars:)
:MESSage? (Returns quoted string)
:NMESsage '<ch ar ac ter_data>' ( :NMESsage? (Returns quoted string)
'ToneVoice' 'Numeric' 'Apha-Num'
_0123456789 abcdefghijklmnopqr
stuvwxyz!#$%&‘()*+,-./:;<=>?’{}
60 char max, valid chars: 0123456789U -=E)
:POC
'01' '10' '11'
:MESSage '<character_data>'(60 chars max, valid characters:)
:MESSage? (Returns quoted string)
:NMESsage '<ch ar ac ter_data>' ( :NMESsage? (Returns quoted string)
'ToneVoice' 'Numeric' 'Apha-Num'
ABCDEFGHIJKLMNOPQRSTUVWXYZ_012 3456789 abcdefghijklmnopqrstuvwxyz !”#$%&’()*+,-./:;<=>?@[\]^’{|}~
60 char max, valid chars: 0123456789U -[])
45
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
AFGenerator2|Encoder
:AFG2
:DTMF
:FREQuency
:COLumn (See "Multiple Real Number Setting Syntax" on page 213)
:ROW (See "Multiple Real Number Setting Syntax" on page 213)
:OFFTime (See "Real Number Setting Syntax" on page 211, :STATe not
:ONTime (See "Real Number Setting Syntax" on page 211, :STATe not
:TWISt (See "Real Number Setting Syntax" on page 211, :STATe and
included)
included)
:SEQuence ’<ch ar ac ter_data>’(1
:SEQuence? (Returns quoted string)
:STANdard ’Bel l’ :STANdard? (Returns quoted string)
6 char max, 1 char min. Valid characters:)
0123456789ABCD *#
:INCRement no t in cl uded)
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AFGenerator2|Encoder
:AFG2
:EDACs
[:CALLER]
:LGID|LID (See "Integer Number Setting Synt ax" on page 209, valid range:)
:GPID|GID (See "Integer Number Setting Syntax" on page 209, valid ra nge:)
:SITeid|STID|SID (See "Integer Number Setting Syntax" on page 209, valid
range: 0 to 32)
1 to 16382
1 to 2048)
:CNCHannel (See "Integer Number Setting Syntax" on page 209)
:WKCHannel (See "Integer Number Setting Syntax" on page 209)
:RXSend
:RXSTart
:RATe (See "Real Number Setting Syntax" on page 211, :STATe not included |
valid range 4000 to 10000)
:CNRX (See "Real Number Setting Syntax" on page 211, :STATe not included)
:CNTX (See "Real Number Setting Syntax" on page 211, :STATe not included)
:WKRX (See "Real Number Setting Syntax" on page 211, :STATe not included)
:WKTX (See "Real Number Setting Syntax" on page 211, :STATe not included)
:SIGNaling|SIG :AM (See "Real Number Setting Syntax" on page 211)
:FM (See "Real Number Setting Syntax" on page 211)
:OUTput (See "Real Number Setting Syntax" on page 211)
:SUBaudible :AM (See "Real Number Setting Syntax" on page 211)
:FM (See "Real Number Setting Syntax" on page 211)
:OUTput (See "Real Number Setting Syntax" on page 211)
:STANdard ’9600’
:STANdard? (Returns quoted string)
’4800’
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S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
AFGenerator2|Encoder
:AFG2
:FGENerator
:WAVeform ’Sine’
:WAVeform? (Returns quoted string)
:SUNits ’RMS’
:SUNits? (Returns quoted string)
’Square’ ’Triangle’ ’Ramp(+)’ ’Ramp(-)’ ’DC(+)’ ’DC(-)’ ’Uni Noise’ ’Gau Noise’
’Peak’
48
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AFGenerator2|Encoder
:AFG2
:LTR
:AREA1|ARE1 (See "Integer Number Setting Syntax" on page 209, vali d range:
0-1)
:AREA2|ARE2 (See "Integer Number Setting Syntax" on page 209, vali d range:
0-1)
:FREE1|FRE1 (See "Integer Number Setting Syntax" on page 209, valid range
0-31)
:FREE2|FRE2 (See "Integer Number Setting Syntax" on page 209, valid range
0-31)
:GOTO1|GOT1 (See "Integer Number Setting Syntax" on page 209, vali d range:
1-31)
:GOTO2|GOT2 (See "Integer Number Setting Syntax" on page 209, vali d range:
1-31)
:HOME1|HOM1 (See "Integer Number Setting Syntax" on page 209, vali d range:
1-20)
:HOME2|HOM2 (See "Integer Number Setting Syntax" on page 209, vali d range:
1-20)
:ID1 (See "Integer Number Setting Syntax" on page 209, valid range: 0-255)
:ID2 (See "Integer Number Setting Syntax" on page 209, valid range: 0-255)
:MESSage ’Message1’
:MESSage? (Returns quoted string)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
:STANdard ’LTR ’
:STANdard? (Returns quoted string)
’Message2’
(valid range: 0.1-2400)
49
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
AFGenerator2|Encoder
:AFG2
:MPT1327
:ALOHa (See "Integer Number Setting Syntax" on page 209, valid range: 1-15)
:CHANnel
:CONTrol
:NUMBer (See "Integer Number Setting Syntax" on page 209, valid range: 0-1023)
:TRAFfic
:NUMBer (See "Integer Number Setting Syntax" on page 209, valid range: 0-1023)
:FILLer
:CLEar <integer_value> (valid range: 1 thru 32)
:DATA <integer_value>,’<character_data>’ (integer valid range:)
:RESet
(maximum chars: 300)
1 thru 32
:UPDate|UPDAT
:IDENtity
:RUUT (See "Integer Number Setting Syntax " on page 209, valid range: 0
-8191)
:SCU (See "Intege r Nu mb e r Setting Synta x" o n page 209, valid range: 0
-8191)
:MESSage :CONTrol :CLEar <integer_value> (valid range: 1 thru 32)
:DATA <integer_value>,’<character_data>’ (integer valid range:)
:TRAFfic :CLEar <integer_value> (valid range: 1 thru 32)
:DATA <integer_value>,’<character_data>’ (integer valid range:)
1 thru 32 (maximum chars: 300) :RESet
1 thru 32 (maximum chars: 300) :RESet
50
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2.sec
:AFG2
:MPT1327
:PREFix :RUUT (See "Integer Number Setting Syntax " on page 209, valid range: 0
-127)
:SCU (See "Intege r Nu mb e r Setting Synta x" o n page 209, valid range: 0
-127)
:QUALifier (See "Integer Number Set ting Syntax" on page 209, valid range:
0-20)
:RDELay (See "Integer Number Setting Syntax " on page 209, valid range: 0-7)
:SIDentity (See "Integer Number Set ting Syntax" on page 209, valid range:
0-32767)
:STANdard ’MPT 13 27 ’
:STANdard? (Returns quoted string)
:SYNC (See "Integer Number Setting Syntax" on page 209, valid range: 0
-65535)
:SYNT (See "Integer Number Setting Syntax" on page 209, valid range: 0
-65535)
AFGenerator2|Encoder
:TMODe ’Off’
:TMODe? (Returns quoted string)
’Control’ ’Traffic’ ’1200Hz’ ’1800Hz’ ’Dotting’
51
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AFGenerator2|Encoder
:AFG2
:NMT
:AINformatio n ’< ch aracter_data>’ (10 chars required , valid chars:)
:AINformation? (Returns quoted string)
:ALEVel :LOW (See "Intege r Nu mb e r Setting Synta x" o n page 209, valid range: 0-15)
:HIGH (See "Integer Number Setting Syntax " on page 209, valid range: 0
-15)
:ANUMber (See "Integer Number Setting Synta x" o n page 209, valid range: 1
-4)
0123456789ABCDEF
:BSAVe (See "Integer Number Setting Synta x" o n page 209, valid range: 0-7)
:BSIDentity ’<character_data>’ (3 chars required, valid chars:)
:BSIDentity? (Returns quoted string)
:CHANnel
:ACCess
:NUMBer (See "Integer Number Setting Syntax" on page 209, valid ra nge: 1-2023)
:POWer (See "Intege r Nu mb e r Setting Synta x" o n page 209, valid range: 0-3)
:CALLing
:NUMBer (See "Integer Number Setting Syntax" on page 209, valid ra nge: 1-2023)
:POWer (See "Intege r Nu mb e r Setting Synta x" o n page 209, valid range: 0-3)
0123456789ABCDEF
52
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:AFG2
:NMT
:TRAFfic
:ALTernate
:NUMBer (See "I nt e ger Number Set t i ng Sy n t ax" on page 209, valid range:)1-2023)
:POWer (See "Integer Number Setting Syntax" on page 209, valid range: 0-3)
[:MAIN]
:NUMBer (See "Integer Number Setting Syntax" on page 209, valid range:)
:POWer (See "Integer Number Setting Syntax" on page 209, valid range: 0-3)
:DUTest ’MS’
:DUTest? (Returns quoted string)
’BS’ ’MTX’
AFGenerator2|Encoder
1-2023)
53
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AFGenerator2|Encoder
:AFG2
:MSNumber ’<character_data>’ (7 chars required, valid chars:)
:MSNumber? (Returns quoted string)
:MAINtenance ’<character_data>’ (6 chars required, valid chars:)
:MAINtenance? (Returns quoted string)
:MCHannel (See "Integer Number Setting Synt ax" on page 209, valid range: 1
-2023)
:MFSTrength (S ee "Inte ger Number Setting Synt ax" on page 209, valid ra nge:
0-99)
:PASSword ’<character_data>’ (3 chars required, valid chars:)
:PASSword? (Returns quoted string)
:PSIGnal (See "Integer Nu mb e r Setting Syntax " on pa ge 209, valid range: 0
-15)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
:SISChallenge ’<character_data’ (7 chars required, valid chars:)
:SISChallenge? (Returns quoted string)
:SISResponse ’<character_data>’ (4 chars required, valid chars:)
:SISResponse? (Returns quoted string)
:STANdard ’STD 45 0’
:STANdard? (Returns quoted string)
’STD900’ ’BENELUX’ ’FRANCE’ ’AUSTRIA’ ’SPAIN’ ’TURKEY’ ’THAILAND’ ’MALAYSIA’ ’SAUDI1’ ’SAUDI2’ ’CRO-SLOV’ ’HUNGARY’ ’BULGARIA’
0123456789ABCDEF
0123456789ABCDEF
0123456789ABCDEF
(valid range: 10-2400)
0123456789ABCDEF
0123456789ABCDEF
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:AFG2
:TARea
:ALTernate (See "Integer Numb e r Set t i n g Sy n t ax" on page 209, valid range: 0-255)
:MAIN (See "Integer Number Setting Syntax " on page 209,
:TCINfo (See "Integer Number Setting Syntax" on page 209,
valid range: 0-255)
valid range: 0-99)
AFGenerator2|Encoder
55
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AFGenerator2|Encoder
:AFG2
:NAMPs|NTACs
:BUSY ’Idle’
’Busy’ ’WS Delay’ ’1stBitDly’
:BUSY? (Returns quoted string)
:DELay (See "Integer Number Setting Syntax" on page 209,
valid range: 0-254)
:CHANnel ’Cntl’
:CHANnel? (Returns quoted string)
:DSAT
’Voice’
:MESSage ’<character_data>’ (6 chars maximum) :MESSage? (Returns quoted string)
:SEND
:STOP
[:FOCC]
:AM (See "Real Number Setting Syntax" on page 211)
:FILLer
:DATA1 ’<character_data>’ (7 chars required, valid chars:)
:DATA1? (Returns quoted string)
:DATA2 ’<character_data>’ (7 chars required, valid chars:)
:DATA2? (Returns quoted string)
0123456789ABCDEF
0123456789ABCDEF
:SEND
:STOP
:FM (See "Real Number Setting Syntax" on page 211)
:LEVel (See "Real Number Setting Syntax" on page 211)
:MESSage
:DATA1 ’<character_data>’ (112 chars max in 7 char increments)
:DATA1? (Returns quoted string)
:DATA2 ’<character_data>’ (112 chars max in 7 char increments)
:DATA2? (Returns quoted string)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
(valid chars: 0123456789ABCDEF)
(valid chars: 0123456789ABCDEF)
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:AFG2
:NAMP|NTAC
:FVC
:AM (See "Real Number Setting Syntax" on page 211)
:FM (See "Real Number Setting Syntax" on page 211)
:LEVel (See "Real Number Setting Syntax" on page 211)
:MESSage ’<character_data>’ (7 chars required, valid chars:)
:MESSage? (Returns quoted string)
:RATE (See "Real Number Setting Syntax" on page 211, :STATe not included)
:SEND ’Message ’
’DST’
:SEND? (Returns quoted string)
:STANdard ’NAM PS ’
:STANdard? (Returns quoted string)
’NTACS’
0123456789ABCDEF
AFGenerator2|Encoder
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AFGenerator2|Encoder
:AFG2
:TSEQuential
:AMPLitude (See "Multiple Real Number Setting Syntax" on page 213)
:FREQuency (See "Multiple Real Number Setting Syntax" on page 213)
:OFFTime (See "Multiple Real Number Setting Syntax" on page 213)
:ONTime (See "Multiple Real Number Setting Syntax" on page 213)
:SEQuence ’<character_data>’ (16 chars maximum, valid chars:)
:SEQuence? (Returns quoted string)
:STANdard ’CCI R1 ’
:STANdard? (Returns quoted string)
’CCIR2’ ’CCITT’ ’EEA’ ’EIA’ ’Euro’ ’NATEL’ ’ZVEI1’ ’ZVEI2’
0123456789 ABCDEF
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AF Generator 2 Pre-Modulation Filters

To improve performance, one of four pre-modulation filters is automatically selected for each Encoder Mode. The automatically selected filter can only be changed using HP-IB commands; however, we recommend you do not change this setting. In order to change the automatically selected filter, the Filter Mode must be set to ON. Filter Mode ON allows independent selection of filters. The Filter Mode ON command must be executed first to override default settings. Filter Mode OFF is the power up default state. The following error will occur if the user attempts to select an alternate filter without first setting the Filter Mode to ON: Entry not accepted. Auto entries take precedence. The syntax to change or query the premodulation filter is shown below.
AFG2:FILTER:MODE ’ON|OFF’(select on e) AFG2:FILTER:MODE?(query the current mode setting) AFG2:FILTER ’NONE|20kHz LPF|250Hz LPF|150Hz LPF’(select one) AFG2:FILTER?(query the current filter setting)
:AFGENERATOR2|AFG2|ENCoder
:FILTer ’NONE’
’20kHz LPF’ ’250Hz LPF’ ’150Hz LPF’
:FILTer? (Returns quoted string)
:MODE ’On’
’Off’
:MODE? (Returns quoted string)
AF Generator 2 Pre-Modulation Filters
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AF Generator 2 Pre-Modulation Filters
60
S:\HP8924C\QK_REF\BOOK\SECTIONS\afg2pmf.sec

CALL Process

The following commands control the analog call-proces si ng fun cti on s fea tured in the Test Set. Handoffs from the CDMA call-processing subsystem to the analog call-processing subsystem are performed using the commands listed under the keywords
“CDMA:CALL:AHAN”.
:CPRocess|CA LL P
:MODE ’MEAS’
:REGister
’DATA’
:MODE? (Returns quoted string)
:ACTive
HESE COMMANDS SET/QUERY THE TYPE OF INFORMATION DISPLAYED ON
T
THE CALL CONTROL SCREEN WHEN AN ANALOG CALL IS CONNECTED. THE
DISPLAY FIELD IS FOUND ON THE CALL CONTROL SCREEN.
HIS COMMAND TURNS ON THE FORWARD CONTROL CHANNEL OF THE
T
SIMULATED BASE STATION. IF A CALL IS IN ANY OTHER CALL- PROCESSING STATE, SENDING THE “ACT” COMMAND WILL FORCE A RETURN TO THE ACTIVE STATE. THE ACTIVE FIELD IS FOUND ON THE CALL
SCREEN.
CONTROL
HIS COMMAND INITIATES A REGISTRATION ATTEMPT BY THE MOBILE STATION. THE
T TEST SET MUST BE IN THE ACTIVE STATE BEFORE ATTEMPTING REGISTRATION. THE REGISTER FIELD IS FOUND ON THE CALL CONTROL SCREEN.
CALL Process
:PAGE
:HANDoff
HIS COMMAND INITIATES A PAGE TO THE MOBILE STATION. THE TEST SET MUST BE
T
IN THE ACTIVE STATE AND THE MS ID FIELDS (PHONE NUM/MIN) MUST HAVE CORRECT VALUES ENTERED FOR A PAGE ATTEMPT TO BE SUCCESSFUL. THE PAGE FIELD IS FOUND ON THE CALL CONTRO L SCREEN.
HIS COMMAND INITIATES A HANDOFF TO ANOTHER VOICE CHANNEL. THE COMMANDS TO
T
SET THE VOICE CHANNEL, POWER LEVEL, AND SAT ARE “CPR:VCH|VMA C| SA T RESPECTIVELY. THE TEST SET MUST BE IN THE CONNECTED STATE FOR A HANDOFF ATTEMPT TO BE SUCCESSFUL. THE HANDOFF FIELD IS FOUND ON THE CALL CO NT RO L SCREEN.
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CALL Process
:CPR
:RELease
HIS COMMAND TERMINATES AN ACTIVE VOICE CHANNEL CONNECTION WITH THE
T
MOBILE STATION. THE TEST SET MUST BE IN THE CONNECTED STATE FOR A RELEASE ATTEMPT TO BE SUCCESSFUL. THE RELEASE FIELD IS FOUND ON THE
CALL CONTROL SCREEN.
:DSPecifier ’S TD ’
:DSPecifier? (Returns quoted string)
:CCHannel (See "Integer Number Setting Syntax " on page 209, valid range: 1-1023)
:CSYStem ’AMPS’
:CSYStem? (Returns quoted string)
:VCHannel (See "Integer Number Setting Syntax " on page 209, valid range: 1-1023)
:SIDentify (See "Integer Number Setting Synta x" o n page 209, valid range: 1-4094)
:AMPLitude (See "Real Number Setting Syntax" on page 211, range: +18 to -137 dBm)
’BITS’
HESE COMMANDS DETERMINE HOW SIGNALING MESSAGES ARE BUILT.
T
HE CONTENTS CAN COME FROM INDUSTRY STANDARDS (STD) OR BIT
T
PATTERNS SET ON THE CALL BIT SCREEN. THE DATA SPEC FIELD IS LOCATED ON THE CALL BIT SCREEN.
HIS COMMAND SETS THE CONTROL CHANNEL NUMBER. THE CNTRL CHAN FIELD IS
T
FOUND ON THE CALL CONTROL SCREEN.
’TACS’ ’JTACS’ ’NAMPS’ ’NTACS’
HESE COMMANDS SET/QUERY THE TYPE OF CELLULAR SYSTEM IN USE. THE
T SYSTEM TYPE FIELD IS LOCATED ON THE CALL BIT SCREEN.
HIS COMMAND SETS THE VOICE CHANNEL NUMBER THAT THE MOBILE STATION
T
WILL BE ASSIGNED TO DURING A CALL SETUP OR HANDOFF. THE VOICE CHAN FIELD IS FOUND ON THE CALL CONTROL SCREEN.
HIS COMMAND SETS THE (BASE STATION) SYSTEM IDENTIFICATION NUMBER. THE
T SID FIELD IS FOUND ON THE CALL CONTROL SCREEN.
HIS COMMAND SETS THE OUTPUT POWER FROM THE TEST SETS RF GENERATOR.
T
HE AMPLITUDE FIELD IS FOUND ON THE CALL CONTROL SCREEN.
T
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CALL Process
:CPR
:NMODe ’PHONE NUM’
:NMODe? (Returns quoted string)
:CRFAtten '0 dB'
:CRFAtten? (Returns quoted string)
:STOLerance 'Narrow'
:STOLerance? (Returns quoted string)
’MIN2 MIN1’
HIS COMMAND SETS/QUERIES THE FORMAT FOR ENTERING THE MOBILE STATIONS
T
IDENTIFICATION. THE “CPR:PNUM” COMMAND SETS THE PHONE NUMBER, AND THE “CPR:MIN” COMMAND SETS MIN 1 AND MIN 2. THE MS ID FIELD IS FOUND ON THE CALL CONTROL SCREEN.
:PNUMber '<character_data>' (10 chars max, valid chars: 0123456789) :PNUMber? (Returns quoted string)
:MINumber '<character_data>' (9 chars max, valid chars: 0123456789ABCDEF) :MINumber? (Returns quoted string)
:SWORd
HESE COMMANDS SET/QUERY THE MOBILE STATION IDENTIFICATION NUMBER. THE
T “CPR:NMOD” COMMAND SELECTS WHICH FORMAT (PHONE NUMBER OR MIN) THE TEST SET WILL USE FOR CALL PROCESSING. THE MS ID FIELD IS FOUND ON THE CALL
SCREEN.
CONTROL
HIS COMMAND SENDS THE (SIGNALING) WORD IN THE SET MESSAGE FIELD. THE
T SET MESSAGE FIELD AND THE SEND WORD FIELD ARE FOUND ON THE CALL BIT
SCREEN.
'20 dB' '40 dB'
HESE COMMANDS SET/QUERY THE INPUT ATTENUATION FOR THE RF IN/OUT AND
T ANTENNA IN CONNECTORS WHEN USING THE ANALOG CALL PROCESSING SUBSYSTEM. THE INPUT ATT FIELD IS FOUND ON THE CALL CONFIGURE SCREEN.
'Wide'
HESE COMMANDS SET/QUERY THE SAT TOLERANCE. THIS SETTING SHOULD BE “WIDE”
T
IF THE MOBILE STATION’S AUDIO IS NOT MUTED DURING A CALL. THE SAT TOL FIELD IS FOUND ON THE CALL CONFIGURE SCREEN.
:CMAXimum (See "Integer Number Setting Syntax " on page 209, valid range: 1-4094)
HIS COMMAND SENDS THE (SIGNALING) WORD ENTERED IN THE SET MESSAGE FIELD.
T
HE SET MESSAGE FIELD AND THE SEND WORD FIELD ARE FOUND ON THE CALL BIT
T
SCREEN.
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CALL Process
:CPR
:SATone ’5970H z’
’6000Hz’
:SATone? (Returns quoted string)
’6030Hz’
HESE COMMANDS SET/QUERY THE SAT (SUPERVISORY AUDIO TONE) TO BE USED
T
DURING THE NEXT CALL SETUP OR HANDOFF. THE SAT FIELD IS FOUND ON THE
CALL CONTROL SCREEN.
:VMACode (See "Integer Number Setting Synta x" o n page 209, valid range: 0-7)
:ORDer ’Chng PL 0’
:ORDer? (Returns quoted string)
’Chng PL 1’ ’Chng PL 2’ ’Chng PL 3’ ’Chng PL 4’ ’Chng PL 5’ ’Chng PL 6’ ’Chng PL 7’ ’Mainten’ ’Alert’
:MESSage 'SPC WORD1'
:MESSage? (Returns quoted string)
HIS COMMAND SETS/QUERIES THE VMAC (VOICE MOBILE ATTENUATION CODE) TO
T
BE USED DURING THE NEXT CALL SETUP OR HANDOFF. VMAC CONTROLS THE POWER LEVEL TRANSMITTED FROM THE MOBILE STATION. THE PWR LVL FIELD IS FOUND ON THE CALL CONTROL SCREEN.
HESE COMMANDS SEND AN ORDER TYPE MOBILE STATION CONTROL MESSAGE ON
T
THE FORWARD VOICE CHANNEL TO THE MOBILE STATION. THE ORDER FIELD IS FOUND ON THE CALL DATA SCREEN IF THE AUTHENT FIELD ON THE
AUTHENTICATION SCREEN IS SET TO “OFF”.
'SPC WORD2' 'ACCESS' 'REG INC' 'REG ID' 'C-FILMESS' 'MS Word 1' 'MSMessOrd' 'MS IntVCh' 'FVC O Mes' 'FVC V Mes'
HESE COMMANDS SELECT/QUERY A FORWARD CONTROL CHANNEL OR FORWARD VOICE
T
CHANNEL MESSAGE TO BE MODIFIED. THE SET MESSAGEFIELD IS FOUND ON THE CALL DATA SCREEN IF THE AUTHENT FIELD ON THE
AUTHENTICATION SCREEN IS SET TO “OFF”.
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:CPR
:DATA ’RECCW A’
:DATA? (Returns quoted string)
’RECCW B’ ’RECCW C’ ’RECCW D’ ’RECCW E’ ’RVCORDCON’ ’BSCHALORD’ ’AUTHWORD’ ’UNIQCHCON’ ’RVCORD’ ’RVCBSCHAL’ ’NRVC ORD’ ’MRI ORD’
HESE COMMANDS SELECT/QUERY THE REVERSE CONTROL CHANNEL OR REVERSE VOICE
T
CHANNEL MESSAGE TO BE VIEWED ON THE CALL DATA SCREEN. THE DISPLAY WORD FIELD IS FOUND ON THE CALL DATA SCREEN.
:RCDDATA1?|RCDD1? (Returns quoted string)
:RCDDATA2?|RCDD2? (Returns quoted string)
:RCDDATA3?|RCDD3? (Returns quoted string)
:RCDDATA4?|RCDD4? (Returns quoted string)
:RCDDATA5?|RCDD5? (Returns quoted string)
:RCDDATA6?|RCDD6? (Returns quoted string)
T
HESE COMMANDS QUERY THE INFORMATION DISPLAYED ON THE RIGHT-HAND PORTION OF
THE CALL CONTROL SCREEN WHEN THE DISPLAY FIELD IS SET TO “DATAOR
“NDATA”. EACH COMMAND CORRESPONDS TO A NON-LABELED DATA FIELD CONSISTING
OF 1 LINE OF CHARACTERS.
CALL Process
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CALL Process
:CPR
:AVCNumber? (Returns quoted string)
HIS COMMAND QUERIES THE VOICE CHANNEL NUMBER FOR THE CALL CURRENTLY
T
CONNECTED. THE CHAN FIELD IS FOUND ON THE CALL CONTROL SCREEN.
:AVCPower? (Returns quoted string)
:AVCSat? (Returns quoted string)
HIS COMMAND QUERIES THE VMAC (VOICE MOBILE ATTENUATION CODE) FOR
T
THE CALL CURRENTLY CONNECTED. VMAC DETERMINES THE MOBILE STATIONS TRANSMITTED POWER LEVEL. THE PWR LVL FIELD IS FOUND ON THE CALL
SCREEN.
CONTROL
HIS COMMAND QUERIES THE SAT (SUPERVISORY AUDIO TONE) FREQUENCY FOR
T
THE CALL CURRENTLY CONNECTED. THE SAT FIELD IS FOUND ON THE CALL
SCREEN.
CONTROL
:RECA
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:TFIeld?|T? (Returns quoted string)
:SERial?|S? (Returns quoted string)
:EXTended?|E? (Returns quoted string)
:REServed?|RSVD? (Returns quoted string)
:SCMark? (Returns quoted string)
:MINumber? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RECCW A
EVERSE CONTROL CHANNEL WORD A - AB BREVIATED ADDRESS
(R WORD). THE MESSAGE FIELDS FOR RE CCW A ARE FOUND ON THE CALL
SCREEN.
DATA
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:CPR :RECB
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:LOCal? (Returns quoted string)
:ORDQualifier? (Returns quoted string)
:ORDer? (Returns quoted string)
:LTRY?|LT? (Returns quoted string)
:REServed?|RSVD? (Returns quoted string)
:MINumber? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RECCW B (REVERSE CONTROL
CHANNEL WORD B - EXTENDED ADDRESS WORD). THE MESSAGE FIELDS FOR RECCW B
ARE FOUND ON THE CALL DA TA SCREEN.
CALL Process
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CALL Process
:CPR :RECC
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:SERial? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RECCW C (REVERSE CONTROL
CHANNEL WORD C - SERIAL NUMBER WORD). THE MESSAGE FIELDS FOR RECCW C
ARE FOUND ON THE CALL DA TA SCREEN.
:RECD
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:DIGIT1?|DIG1? (Returns quoted string)
:DIGIT2?|DIG2? (Returns quoted string)
:DIGIT3?|DIG3? (Returns quoted string)
:DIGIT4?|DIG4? (Returns quoted string)
:DIGIT5?|DIG5? (Returns quoted string)
:DIGIT6?|DIG6? (Returns quoted string)
:DIGIT7?|DIG7? (Returns quoted string)
:DIGIT8?|DIG8? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RECCW D (REVERSE CONTROL
CHANNEL WORD D - FIRST WORD OF THE CALLED-ADDRESS). THE MESSAGE
FIELDS FOR RECCW C ARE FOUND ON THE CALL DATA SCREEN.
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:CPR :RECE
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:DIGIT9?|DIG9? (Returns quoted string)
:DIGIT10?|DIG10? (Returns quoted string)
:DIGIT11?|DIG11? (Returns quoted string)
:DIGIT12?|DIG12? (Returns quoted string)
:DIGIT13?|DIG13? (Returns quoted string)
:DIGIT14?|DIG14? (Returns quoted string)
:DIGIT15?|DIG15? (Returns quoted string)
:DIGIT16?|DIG16? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RECCW E (REVERSE CONTROL
CHANNEL WORD E - SECOND WORD OF THE CALLED-ADDRESS). THE MESSAGE FIELDS
FOR RECCW E ARE FOUND ON THE CALL DATA SCREEN.
:RCOConfirm
:FWORd?|F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:TFIeld?|T? (Returns quoted string)
:LOCal? (Returns quoted string)
:ORDQualifier? (Returns quoted string)
:ORDer? (Returns quoted string)
:REServed?|RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RVCORDCON (REVERSE VOICE
CHANNEL ORDER CONFIRMATION MESSAGE). THE MESSAGE FIELDS
FOR RVCORDCON ARE FOUND ON THE CALL DATA SCREEN.
CALL Process
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CALL Process
:CPR
:SPOMESSAGE1|SPOM1
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:SIDentify ’<character_data>’ (14 chars required, valid char s: 01) :SIDentify? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (3 chars required, valid chars: 01) :REServed?|RSVD? (Returns quoted string)
:NAWComing ’<character_data>’ (3 chars required, valid chars: 01) :NAWComing? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR SPC WORD1
T
YSTEM PARAMETER OVERHEAD MESSAGE WORD 1). THE MESSAGE
(S
FIELDS FOR SPC WORD1 ARE FOUND ON THE CALL BIT SCREEN.
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:CPR
:SPOMESSAGE2|SPOM2
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:SERial|S ’<character_data>’ (1 char required, valid chars: 01) :SERial?|S? (Returns quoted string)
:EXTended|E ’<character_data>’ (1 char required, valid chars: 01) :EXTended?|E? (Returns quoted string)
:RHOMe|REGHome ’<character_data>’ (1 char required, valid chars: 01) :RHOMe?|REGHome? (Returns quoted string)
:RROam|REGRoam ’<character_data>’ (1 char required, valid chars: 01) :RROam?|REGRoam? (Returns quoted string)
:DTX ’<character_data>’ (2 chars required, valid chars: 01) :DTX? (Returns quoted string)
:NPAGe|Nfield ’<character_data>’ (5 chars required, valid chars: 01) :NPAGe?|Nfield? (Returns quoted string)
:RCFiller ’<character_data>’ (1 char required, valid chars: 01) :RCFiller? (Returns quoted string)
:CPACcess|CPA ’<character_data>’ (1 char required, valid chars: 01) :CPACcess?|CPA? (Returns quoted string)
:CMAXimum ’<character_data>’ (7 chars required, valid chars: 01) :CMAXimum? (Returns quoted string)
:END ’<character_data>’ (1 char required, valid chars: 01) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR SPC WORD2
T
YSTEM PARAMETER OVERHEAD MESSAGE WORD 2). THE MESSAGE
(S
FIELDS FOR SPC WORD2 ARE FOUND ON THE CALL BIT SCREEN.
CALL Process
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CALL Process
:CPR
:ACCess
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:ACTion ’<character_data>’ (4 chars required, valid chars: 01) :ACTion? (Returns quoted string)
:BISTate|BIS ’<character_data>’ (1 char required, valid char s: 01) :BISTate?|BIS? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (15 chars required, vali d chars: 01) :REServed?|RSVD? (Returns quoted string)
:END ’<character_data>’ (1 char required, valid chars: 01) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR ACCESS
T
CCESS TYPE PARAMETERS GLOBAL ACTION MESSAGE). THE MESSAGE
(A
FIELDS FOR ACCESS ARE FOUND ON THE CALL BIT SCREEN.
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:CPR
:RINCrement
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:ACTion ’<character_data>’ (4 chars required, valid chars: 01) :ACTion? (Returns quoted string)
:RINCrement ’< ch ar acter_data>’ (12 chars required, va lid chars: 01) :RINCrement? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (4 chars required, valid chars: 01) :REServed?|RSVD? (Returns quoted string)
:END ’<character_data>’ (1 char required, valid chars: 01) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR REG INC
T
EGISTRATION INCREMENT GLOBAL ACTION MESSAGE). THE MESSAGE FIELDS FOR
(R REG INC ARE FOUND ON THE CALL BIT SCREEN.
CALL Process
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CALL Process
:CPR
:RIDentify
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:IDENtify|REGID ’<character_data>’ (20 chars required, valid chars: 01) :IDENtify?|REGID? (Returns quoted string)
:END ’<character_data>’ (1 char required, valid chars: 01) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR REG ID
T
EGISTRATION ID MESSAGE). THE MESSAGE FIELDS FOR
(R REG ID ARE FOUND ON THE CALL BIT SCREEN.
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CALL Process
:CPR
:CFMessage
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:FIELD1|FIEL1|F1 ’<character_data>’ (6 chars required, valid chars: 01) :FIELD1?|FIEL1?|F1? (Returns quoted string)
:CMACode ’<character_data>’ (3 chars required, valid chars: 01) :CMACode? (Returns quoted string)
:RESERVED1|RES1|RSVD1 '<character_data>' (2 chars req’d, valid chars: 01) :RESERVED1?|RES1?|RSVD1? (Returns quoted string)
:FIELD2|FIEL2|F2 '<character_data>' (2 chars required, valid chars: 01) :FIELD2?|FIEL2?|F2? (Returns quoted string)
:RESERVED2|RES2|RSVD2 '<character_data>' (2 chars req’d, valid chars: 01) :RESERVED2?|RES2?|RSVD2? (Returns quoted string)
:FIELD3|FIEL3|F3 '<character_data>' (1 char required, valid chars: 01) :FIELD3?|FIEL3?|F3? (Returns quoted string)
:WFOMessage '<character_data>' (1 char required, valid chars: 01) :WFOMessage? (Returns quoted string)
:FIELD4|FIEL4|F4 '<character_data>' (4 chars required, valid chars: 01) :FIELD4?|FIEL4?|F4? (Returns quoted string)
:OVERhead '<character_data>' (3 chars required, valid chars: 01) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR C-FILMESS (CONTR OL-FILLER
T MESSAGE). THE MESSAGE FIELDS FOR C-FILMESS ARE FOUND ON THE CALL BIT
SCREEN.
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CALL Process
:CPR
:MSWord
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required, valid chars: 01) :DCCode? (Returns quoted string)
:MINumber ’<ch ar ac ter_data>’ (24 chars required, vali d chars: 01) :MINumber? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR MS WORD1 (FCC MOBILE
T STATION CONTROL MESSAGE WORD 1 - ABBREVIATED ADDRESS WORD). THE MESSAGE
FIELDS FOR MS WORD1 ARE FOUND ON THE CALL BIT SCREEN.
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:CPR
:MSORder
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required, valid chars: 01) :SCCode? (Returns quoted string)
:MINumber ’<ch ar ac ter_data>’ (10 chars required, vali d chars: 01) :MINumber? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (1 char required, valid chars: 01) :REServed?|RSVD? (Returns quoted string)
:LOCal ’<character_data>’ (5 chars required, valid chars: 01) :LOCal? (Returns quoted string)
:ORDQualifier ’<character_data>’ (3 chars required, valid chars: 01) :ORDQualifier? (Returns quoted string)
:ORDer ’<character_data>’ (5 chars required, valid chars: 01) :ORDer? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR MSMESSORD (FCC MOBILE
T STATION CONTROL MESSAGE EXTENDED ADDRESS WORD - ORDER). THE MESSAGE
FIELDS FOR MSMESSORD ARE FOUND ON THE CALL BIT SCREEN.
CALL Process
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CALL Process
:CPR
:MSVoice
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required, valid chars: 01) :SCCode? (Returns quoted string)
:MINumber ’<ch ar ac ter_data>’ (10 chars required, vali d chars: 01) :MINumber? (Returns quoted string)
:VMACode ’<character_data>’ (3 chars required, valid chars: 01) :VMACode? (Returns quoted string)
:CHANnel ’<character_data>’ (11 chars required, valid chars: 01) :CHANnel? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR MSINTVCH (FCC MOBILE
T STATION CONTROL MESSAGE EXTENDED ADDRESS WORD - VOICE CHANNEL ASSIGNMENT). THE MESSAGE FIELDS FOR MSINTVCH ARE FOUND ON THE CALL BIT
SCREEN.
78
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:FVORder
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required, valid chars: 01) :SCCode? (Returns quoted string)
:PSCCode ’<character_data>’ (2 chars required, valid chars: 01) :PSCCode? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (9 chars required, valid chars: 01) :REServed?|RSVD? (Returns quoted string)
:LOCal ’<character_data>’ (5 chars required, valid chars: 01) :LOCal? (Returns quoted string)
:ORDQualifier ’<character_data>’ (3 chars required, valid chars: 01) :ORDQualifier? (Returns quoted string)
:ORDer ’<character_data>’ (5 chars required, valid chars: 01) :ORDer? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVC O MES (FCC MOBILE
T STATION CONTROL ORDER MESSAGE). THE MESSAGE FIELDS FOR FVC O MES ARE
FOUND ON THE CALL BIT SCREEN.
CALL Process
79
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:FVVoice
:TYPE|T1T2 ’<character_data>’ (2 chars required, valid chars: 01) :TYPE?|T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required, valid chars: 01) :SCCode? (Returns quoted string)
:PSCCode ’<character_data>’ (2 chars required, valid chars: 01) :PSCCode? (Returns quoted string)
:REServed|RSVD ’<character_data>’ (8 chars required, valid chars: 01) :REServed?|RSVD? (Returns quoted string)
:VMACode ’<character_data>’ (3 chars required, valid chars: 01) :VMACode? (Returns quoted string)
:CHANnel ’<character_data>’ (11 chars required, valid chars: 01) :CHANnel? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVC V MES (FCC MOBILE
T STATION CONTROL VOICE CHANNEL ASSIGNMENT MESSAGE). THE MESSAGE FIELDS FOR FVC V MES ARE FOUND ON THE CALL BIT SCREEN.
80
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS :AUTHenticate ’Off’
:AUTHenticate? (Returns quoted string)
:AKEY ’<character_data> (26 chars maximum, valid chars: decimal)’ :AKEY? (Returns quoted string)
:AKEY :GENerate
:ONOFF ’On’
:ONOFF? (Returns quoted string)
:OON (See "Intege r Nu mb e r Setting Synta x" o n page 209, does not include
:ESNumber ’<character_data> (10 chars maximum, valid chars: hex)’ :ESNumber? (Returns quoted string)
’On’
HESE COMMANDS SELECT/QUERY THE ANALOG AUTHENTICATION
T
STATE. THE AUTHENT FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
HIS IMMEDIATE ACTION COMMAND GENERATES A NEW A_KEY FOR USE
T
IN THE MOBILE STATION. THE RESULTANT CHECKSUM WILL BE DISPLAYED IN THE LAST 6 DIGITS OF THE A_KEY FIELD. THE
A_KEY FIELD IS FOUND ON THE AUTHENTICATION SCREEN. THERE IS
NO MANUAL (FRONT PANEL) OPERATION THAT GENERATES A NEW
A_KEY IN THIS MANNER.
’Off’
:INCRement command)
HIS COMMAND SETS THE NUMBER OF TIMES THE SYSTEM PARAMETER
T OVERHEAD MESSAGE IS SENT. THE 1 OF N FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
HIS COMMAND SETS THE ESN (ELECTRONIC SERIAL NUMBER) OF THE
T
MOBILE STATION. THE ESN FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
:CCORder ’SSD Upd’
:CCORder? (Returns quoted string)
’Uniq Ch’
HIS COMMAND SENDS/QUERIES AN ORDER TYPE MOBILE STATION
T
CONTROL MESSAGE ON THE FORWARD CONTROL CHANNEL TO THE MOBILE STATION.
HE CC ORDER FIELD IS FOUND ON THE CALL CONTROL SCREEN WHEN THE
T AUTHENT FIELD ON THE AUTHENTICATION SCREEN IS “ONAND A CALL IS
NOT CONNECTED.
81
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS
:AUTH
:VCORder ’Chng PL 0’
:VCORder? (Returns quoted string)
:SSDA '<character_data> (16 chars: hex)' :SSDA? (Returns quoted string)
:NEW '<character_data> (16 chars: hex)' :NEW? (Returns quoted string)
:SSDB '<character_data> (16 chars: hex)' :SSDB? (Returns quoted string)
:NEW '<character_data> (16 chars: hex)' :NEW? (Returns quoted string)
:ASCProcedure '<character_data> (31 chars: hex)' :ASCProcedure :RESult? (Returns quoted string)
’Chng PL 1’ ’Chng PL 2’ ’Chng PL 3’ ’Chng PL 4’ ’Chng PL 5’ ’Chng PL 6’ ’Chng PL 7’ ’Mainten’ ’Alert’
HIS COMMAND SENDS/QUERIES AN ORDER TYPE MOBILE STATION
T
CONTROL MESSAGE ON THE VOICE CHANNEL TO THE MOBILE STATION. THE VC
RDER FIELD IS FOUND ON THE CALL CONTROL SCREEN WHEN THE AUTHENT
O
FIELD ON THE AUTHENTICATION SCREEN IS “ON” AND THE MOBILE STATION AND TEST SET ARE ON A VOICE CHANNEL.
82
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:AMPS
:AUTH
:RAND
:A ’<character_data>’ (4 chars required: hex)
:A? (Returns quoted string)
HESE COMMANDS SET/QUERY THE 16 MOST SIGNIFICANT BITS OF RAND,
T
WHICH IS USED IN THE AUTHENTICATION PROCESS. THE RAND_A FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
:B ’<character_data>’ (4 chars required: hex) :B? (Returns quoted string)
HESE COMMANDS SET/QUERY THE 16 LEAST SIGNIFICANT BITS OF RAND,
T
WHICH IS USED IN THE AUTHENTICATION PROCESS. THE RAND_B FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
:U ’<character_data>’ (6 chars required: hex) :U? (Returns quoted string)
HESE COMMANDS SET/QUERY RAND_U, A 24-BIT NUMBER ISSUED BY THE BASE
T
STATION IN A UNIQUE CHALLENGE ORDER. THE RAND_U FIELD IS FOUND ON THE
AUTHENTICATION SCREEN.
:SSD1 ’<character_data>’ (6 chars required: hex) :SSD1? (Returns quoted string)
HESE COMMANDS SET/QUERY THE 24 MOST SIGNIFICANT BITS OF RANDSSD,
T
ISSUED BY THE BASE STATION DURING A SSD UPDATE ORDER. THE RANDSSD_ 1 FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
:SSD2 ’<charac te r_ data>’ (6 chars required: hex) :SSD2? (Returns quoted string)
HESE COMMANDS SET/QUERY THE 24 BITS BETWEEN RANDSS D_1 AND RANSSD_3.
T
IS ISSUED BY THE BASE STATION DURING A SSD UPDATE ORDER. THE
RANDSSD RANDSSD_2 FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
:SSD3 ’<character_data>’ (2 chars required: hex) :SSD3? (Returns quoted string)
HESE COMMANDS SET/QUERY THE 24 LEAST SIGNIFICANT BITS OF RANDSSD,
T
ISSUED BY THE BASE STATION DURING A SSD UPDATE ORDER. THE RANDSSD_ 3 FIELD IS FOUND ON THE AUTHENTICATION SCREEN.
CALL Process
83
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS
:RCA
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required: binary) :DCCode? (Returns quoted string)
:ACTion ’<character_data>’ (4 chars required: binary) :ACTion? (Returns quoted string)
:RANDA ’<character_data>’ (16 chars required: binary) :RANDA? (Returns quoted string)
:END ’<character_data>’ (1 char required: binary) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required: binary) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR RANDCHALA (RANDOM
T CHALLENGE A GLOBAL ACTION MESSAGE). THE MESSAGE FIELDS FOR RANDCHALA ARE FOUND ON THE CALL BIT SCREEN.
84
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:AMPS
:RCB
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DCCode ’<character_data>’ (2 chars required: binary) :DCCode? (Returns quoted string)
:ACTion ’<character_data>’ (4 chars required: binary) :ACTion? (Returns quoted string)
:RANDB ’<character_data>’ (16 chars required: binary) :RANDB? (Returns quoted string)
:END ’<character_data>’ (1 char required: binary) :END? (Returns quoted string)
:OVERhead ’<character_data>’ (3 chars required: binary) :OVERhead? (Returns quoted string)
:PARity? (Returns quoted string)
:RSSD1 :TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:RANDSSD1 ’<character_data>’ (24 chars required: binary) :RANDSSD1? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR RANDCHALA (RANDOM
T CHALLENGE A GLOBAL ACTION MESSAGE). THE MESSAGE FIELDS FOR RANDCHALA ARE FOUND ON THE CALL BIT SCREEN.
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR RAND SSD1 (FIRST SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR RAND SSD1 ARE FOUND ON THE
U
CALL BIT SCREEN.
CALL Process
85
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS
:RSSD2
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:RANDSSD2 ’<character_data>’ (24 chars required: binary) :RANDSSD2? (Returns quoted string)
:PARity? (Returns quoted string)
:RSSD3 :TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:RSVD1 ’<character_data>’ (2 chars required: binary) :RSVD1? (Returns quoted string)
:RANDSSD3 ’<character_data>’ (12 chars required: binary) :RANDSSD3? (Returns quoted string)
:RSVD2 ’<character_data>’ (4 chars required: binary) :RSVD2? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR RAND SSD2 (SECOND SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR RAND SSD2 ARE FOUND ON THE
U
CALL BIT SCREEN.
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR RAND SSD3 (THIRD SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR RAND SSD3 ARE FOUND ON THE
U
CALL BIT SCREEN.
86
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:AMPS
:BSCC
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:RSVD1 ’<character_data>’ (2 chars required: binary) :RSVD1? (Returns quoted string)
:AUTHBS ’<character_data>’ (18 chars required: binary) :AUTHBS? (Returns quoted string)
:RSVD2 ’<character_data>’ (4 chars required: binary) :RSVD2? (Returns quoted string)
:PARity? (Returns quoted string)
:UCORder :TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:RANDU ’<character_data>’ (24 chars required: binary) :RANDU? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR BSCHALCON (BASE STATION
T CHALLENGE ORDER CONFIRMATION WORD). THE MESSAGE FIELDS FOR BSCHA LCON ARE
FOUND ON THE CALL BIT SCREEN.
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR UNIQCHORD (UNIQUE
T CHALLENGE ORDER WORD). THE MESSAGE FIELDS FOR UNIQCHORD ARE
FOUND ON THE CALL BIT SCREEN.
CALL Process
87
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS
:FVCSSD1
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:RANDSSD1 ’<character_data>’ (24 chars required: binary) :RANDSSD1? (Returns quoted string)
:RSVD ’<character_data>’ (2chars required: binary) :RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
:FVCSSD2 :TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:RANDSSD2 ’<character_data>’ (24 chars required: binary) :RANDSSD2? (Returns quoted string)
:RSVD ’<character_data>’ (2 chars required: binary) :RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
:FVCSSD3 :TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:RANDSSD3 ’<character_data>’ (24 chars required: binary) :RANDSSD3? (Returns quoted string)
:RSVD ’<character_data>’ (2 chars required: binary) :RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVC SSD1 (FIRST SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR FVC SSD1 ARE FOUND ON THE
U
CALL BIT SCREEN.
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVC SSD2 (SECOND SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR FVC SSD2 ARE FOUND ON THE
U
CALL BIT SCREEN.
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVC SSD3 (THIRD SSD
T
PDATE ORDER WORD). THE MESSAGE FIELDS FOR FVC SSD3 ARE FOUND ON THE
U
CALL BIT SCREEN.
88
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:AMPS
:FVCBSC
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:RSVD1 ’<character_data>’ (4 chars required: binary) :RSVD1? (Returns quoted string)
:AUTHBS ’<character_data>’ (18 chars required: binary) :AUTHBS? (Returns quoted string)
:RSVD2 ’<character_data>’ (4 chars required: binary) :RSVD2? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVCBSCON (BASE
T STATION CHALLENGE ORDER CONFIRMATION). THE MESSAGE FIELDS FOR FVCBSCON ARE FOUND ON THE CALL BIT SCREEN.
CALL Process
89
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:AMPS
:FVCUC
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:RSVD ’<character_data>’ (2 chars required: binary) :RSVD? (Returns quoted string)
:RANDU ’<character_data>’ (24 chars required: binary) :RANDU? (Returns quoted string)
:PARity? (Returns quoted string)
:BSCOrder :FWORd? | F? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR FVCUNIQCH (UNIQUE
T CHALLENGE ORDER WORD). THE MESSAGE FIELDS FOR FVCUNIQCH ARE FOUND ON THE
CALL BIT
SCREEN.
:NAWComing? (Returns quoted string)
:RANDBS? (Returns quoted string)
:PARity? (Returns quoted string)
:AWORd :FWORd? | F? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR BSCHALORD (BASE STATION
CHALLENGE WORD). THE MESSAGE FIELDS FOR BSCHALORD ARE FOUND ON THE
CALL DATA
SCREEN.
:NAWComing? (Returns quoted string)
:COUNT? (Returns quoted string)
:RANDC? (Returns quoted string)
:AUTHR? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR AUTHWORD (AUTHENTICATION
WORD). THE MESSAGE FIELDS FOR AUTHWORD ARE FOUND ON THE CALL DATA SCREEN.
90
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:AMPS
:UCC :FWORd? | F? (Returns quoted string)
:NAWComing? (Returns quoted string)
:RSVD? (Returns quoted string)
:AUTHU? (Returns quoted string)
:PARity? (Returns quoted string)
:RVCOrder :FWORd? | F? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR UNIQCHCON (UNIQU E
CHALLENGE ORDER CONFIRMATION WORD). THE MESSAGE FIELDS FOR UNIQCHCON
ARE FOUND ON THE CALL DA TA SCREEN.
:NAWComing? (Returns quoted string)
:T? (Returns quoted string)
:LOCal? (Returns quoted string)
:ORDQ? (Returns quoted string)
:ORDer? (Returns quoted string)
:RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
:RVCBSC :FWORd? | F? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RVCORD (REVERSE VOICE CHANNEL
GENERIC ORDER). THE MESSAGE FIELDS FOR RVCORDARE FOUND ON THE CALL DATA
SCREEN.
:NAWComing? (Returns quoted string)
:T? (Returns quoted string)
:RANDBS? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR RVCBSCHAL (BASE STATION
CHALLENGE ORDER WORD). THE MESSAGE FIELDS FOR RVCBSCHALARE FOUND ON THE
CALL DATA SCREEN.
CALL Process
91
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:NAMPs
:NDMMode ’NData’
:NDMMode? (Returns quoted string)
:CEXTension :ACTual? (Returns quoted string)
:SETTing 'Wide'
:SETTing? (Returns quoted string)
:DSAT :MEASurement? (Returns quoted string)
[:RESult?] (Returns quoted string) :SELect 'DSAT'
:SELect? (Returns quoted string)
:SETTing ’<character_data>’ :SETTing? (Returns quoted string)
’NMeas’
HESE COMMANDS SET/QUERY THE TYPE OF INFORMATION DISPLAYED ON THE CALL
T
SCREEN WHEN AN ANALOG CALL IS CONNECTED AND THE SYSTEM TYPE FIELD
CONTROL
ON THE CALL CONTROL SCREEN IS SET TO “NAMPS”. THE DISPLAY FIELD IS FOUND ON THE CALL CONTROL SCREEN.
HIS COMMAND QUERIES THE NAMPS CHANNEL LOCATION (LOWER, MIDDLE,
T
UPPER, WIDE CHANNEL) FOR A CALL CURRENTLY CONNECTED. THE CH LOC FIELD IS FOUND ON THE CALL CONTROL SCREEN WHEN THE SYSTEM TYPE FIELD ON THE CALL
SCREEN IS SET TO “NAMPS”.
CONTROL
'Lower' 'Middle' 'Upper'
HIS COMMAND SETS/QUERIES THE NAMPS CHANNEL LOCATION (LOWER, MIDDLE,
T
UPPER, WIDE CHANNEL) TO BE USED DURING THE NEXT CALL OR HANDOFF. THE
CH LOC FIELD IS FOUND ON THE CALL CONTROL SCREEN WHEN THE SYSTEM TYPE FIELD ON THE CALL CONTROL SCREEN IS SET TO “NAMP S” .
'Data'
HIS COMMAND SETS/QUERIES THE NAMPS DSAT (DIGITAL SUPERVISORY AUDIO
T TONE) TO BE USED DURING THE NEXT CALL OR HANDOFF. THE DSAT FIELD IS
FOUND ON THE CALL CONTROL SCREEN WHEN THE SYSTEM TYPE FIELD ON THE
CALL CONTROL SCREEN IS SET TO “NAMPS”.
:ACTual? (Returns quoted string)
HIS COMMAND QUERIES THE NAMPS DSAT (DIGITAL SUPERVISORY AUDIO
T TONE) FOR A CALL CURRENTLY CONNECTED. THE DSAT FIELD IS
FOUND ON THE CALL CONTROL SCREEN WHEN THE SYSTEM TYPE FIELD ON THE
CALL CONTROL SCREEN IS SET TO “NAMPS”.
92
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:NAMPs
:MRI
:RSETting ’Imm Resp’
:RSETting? (Returns quoted string)
:RSSI ’<charac te r_ data>’ :RSSI? (Returns quoted string)
:BSETting? (Returns integer number) :BSETting (See "Integer Number Setting Synt ax" on page 209, valid range: $$$)
’-75 dBm’ ’-80 dBm’ ’-85 dBm’ ’-90 dBm’ ’-95 dBm’ ’-100 dBm’ ’-105 dBm’
HESE COMMANDS SET/QUERY THE MRI (MOBILE REPORTED INTERFERENCE)
T
THRESHOLD. THE RSSI THRESH FIELD IS FOUND ON THE CALL
RSSI CONFIGURE
SCREEN IS SET TO “NAMPS”
HESE COMMANDS SET/QUERY THE BER (BIT ERROR RATE) THRESHOLD. THE BER
T
HRESH FIELD IS FOUND ON THE CALL CONFIGURE SCREEN WHEN THE SYSTEM TYPE
T
FIELD ON THE CALL CONTROL SCREEN IS SET TO “NAMPS”.
SCREEN WHEN THE SYSTEM TYPE FIELD ON THE CALL CONTROL
:BERate? (Returns quoted string)
:NORDer 'Chng PL 0'
:NORDer? (Returns quoted string)
'Chng PL 1' 'Chng PL 2' 'Chng PL 3' 'Chng PL 4' 'Chng PL 5' 'Chng PL 6' 'Chng PL 7' 'MRI' 'Mainten' 'Alert'
HESE COMMANDS SEND/QUERY THE ORDER MESSAGE TO A MOBILE STATION ON A VOICE
T
CHANNEL WHEN THE SYSTEM TYPE FIELD HAS “NAMPS” SELECTED. THE ORDER FIELD IS FOUND ON THE CALL CONTRO L SCREEN WHEN THE AUTHENT FIELD ON THE
AUTHENTICATION SCREEN IS “OFF”.
CALL Process
93
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:NAMPs
:NOConfirm :TYPE? | T1T2? (Returns quoted string)
:AWComing? (Returns quoted string)
:LOCal? (Returns quoted string)
:OQUalifier? | ORDQ? (Returns quoted string)
:ORDer? (Returns quoted string)
:DSCCode? (Returns quoted string)
:VMACode? (Returns quoted string)
:OEVen? | OE? (Returns quoted string)
:RSVD? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR NRVC ORD (NARROW ORDER
OR ORDER CONFIRMATION MESSAGE). THE MESSAGE FIELDS FOR NRVC ORD ARE FOUND ON THE CALL DATA SCREEN.
94
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:NAMPs
:MRIOrder :TYPE? | T1T2? (Returns quoted string)
:AWComing? (Returns quoted string)
:RSV1? (Returns quoted string)
:RSSI? (Returns quoted string)
:OQUalifier? | ORDQ? (Returns quoted string)
:ORDer? (Returns quoted string)
:DSCCode? (Returns quoted string)
:VMACode? (Returns quoted string)
:OEVen? | OE? (Returns quoted string)
:BERate? (Returns quoted string)
:RSV2? (Returns quoted string)
CALL Process
:PARity? (Returns quoted string)
:EPFControl | EXTP
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:MINumber ’<character_data>’ (10 chars required: binary) :MINumber? (Returns quoted string)
:EFCIndicator | EF ’<character_data>’ (1 char required: binary) :EFCIndicator? | EF? (Returns quoted string)
:EPMLength | MSL ’<character_data>’ (5 chars required: binary) :EPMLength? | MSL? (Returns quoted string)
:EPMType | MST ’<character_data>’ (8 chars required: binary) :EPMType? | MST? (Returns quoted string)
:PARity? (Returns quoted string)
T
HESE COMMANDS QUERY THE MESSAGE FIELDS FOR MRI ORD (MRI ORDER MESSAGE). HE MESSAGE FIELDS FOR MRI ORD ARE FOUND ON THE CALL DATA SCREEN.
T
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR EXT PROT (FCC MOBILE
T STATION CONTROL MESSAGE). THE MESSAGE FIELDS FOR EXT PROT ARE FOUND ON
THE CALL BIT SCREEN.
95
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:NAMPs
:NCAMessage | NCHA
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DSCCode ’<character_data>’ (3 chars required: binary) :DSCCode? (Returns quoted string)
:RSVD ’<character_data>’ (7 chars required: binary) :RSVD? (Returns quoted string)
:CB13 | C13 ’<character_data>’ (1 char required: binary) :CB13? | C13? (Returns quoted string)
:CB12 | C12 ’<character_data>’ (12 chars required: binary) :CB12? | C12? (Returns quoted string)
:VMACode ’<character_data>’ (3 chars required: binary) :VMACode? (Returns quoted string)
:CHANnel ’<character_data>’ (11 chars required: binary) :CHANnel? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR NCH ASN (FCC NARROW
T CHANNEL ASSIGNMENT MESSAGE). THE MESSAGE FIELDS FOR NCH ASN ARE
FOUND ON THE CALL BIT SCREEN.
96
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
CALL Process
:NAMPs
:NFVMessage | NFVC
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DSCCode ’<character_data>’ (3 chars required: binary) :DSCCode? (Returns quoted string)
:PDCCode | PDSCcode ’<character_data>’ (3 chars required: binary) :PDCCode? | PDSCcode? (Returns quoted string)
:EFCIndicator | EF ’<character_data>’ (1 char required: binary) :EFCIndicator? | EF? (Returns quoted string)
:RSVD ’<character_data>’ (5 chars required: binary) :RSVD? (Returns quoted string)
:OEVen | OE ’<character_data>’ (1 char required: binary) :OEVen? | OE? (Returns quoted string)
:LOCal ’<character_data>’ (5 chars required: binary) :LOCal? (Returns quoted string)
:OQU | ORDQ ’<character_data>’ (3 chars required: binary) :OQU? | ORDQ? (Returns quoted string)
:ORDer ’<character_data>’ (5 chars required: binary) :ORDer? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR NMS FVC (FVC MOBILE
T STATION CONTROL MESSAGE). THE MESSAGE FIELDS FOR NMS FVC ARE
FOUND ON THE CALL BIT SCREEN.
97
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:NAMPs
:MRIMessage | NMRI
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DSCCode ’<character_data>’ (3 chars required: binary) :DSCCode? (Returns quoted string)
:PDCCode ’<character_data>’ (3 chars required: binary) :PDCCode? (Returns quoted string)
:EFCIndicator | EF ’<character_data>’ (1 char required: binary) :EFCIndicator? | EF? (Returns quoted string)
:RSSI ’<character_data>’ (3 chars required: binary) :RSSI? (Returns quoted string)
:BERate ’<character_data>’ (2 chars required: binary) :BERate? (Returns quoted string)
:OEVen | OE ’<character_data>’ (1 char required: binary) :OEVen? | OE? (Returns quoted string)
:BLSBit | BERLsb ’<charact er _d ata>’ (5 chars required: binary) :BLSBit? | BERLsb? (Returns quoted string)
:OQU | ORDQ ’<character_data>’ (3 chars required: binary) :OQU? | ORDQ? (Returns quoted string)
:ORDer ’<character_data>’ (5 chars required: binary) :ORDer? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR MRI MES (MRI
T
ARAMETER MESSAGE). THE MESSAGE FIELDS FOR MRI MES ARE FOUND ON THE
P
CALL BIT SCREEN.
98
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
:CPR
:NAMPs
:WNHMessage
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:SCCode ’<character_data>’ (2 chars required: binary) :SCCode? (Returns quoted string)
:PSCCode ’<character_data>’ (2 chars required: binary) :PSCCode? (Returns quoted string)
:CTYPe ’<character_data>’ (1 char required: binary) :CTYPe? (Returns quoted string)
:DSCCode ’<character_data>’ (3 chars required: binary) :DSCCode? (Returns quoted string)
:RSVD ’<character_data>’ (2 chars required: binary) :RSVD? (Returns quoted string)
:CB13 | C13 ’<character_data>’ (1 char required: binary) :CB13? | C13? (Returns quoted string)
:CB12 | C12 ’<character_data>’ (1 char required: binary) :CB12? | C12? (Returns quoted string)
:VMACode ’<character_data>’ (3 chars required: binary) :VMACode? (Returns quoted string)
:CHANnel ’<character_data>’ (11 chars required: binary) :CHANnel? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR WNHO MES (WIDE TO NARROW
T HANDOFF MESSAGE). THE MESSAGE FIELDS FOR WNHO MES ARE FOUND ON THE
CALL BIT SCREEN.
CALL Process
99
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
CALL Process
:CPR
:NAMPs
:NHOMessage
:TYPE | T1T2 ’<character_data>’ (2 chars required: binary) :TYPE? | T1T2? (Returns quoted string)
:DSCCode ’<character_data>’ (3 chars required: binary) :DSCCode? (Returns quoted string)
:PDCCode ’<character_data>’ (3 chars required: binary) :PDCCode? (Returns quoted string)
:CTYPe ’<character_data>’ (1 char required: binary) :CTYPe? (Returns quoted string)
:OEVen | OE ’<character_data>’ (1 char required: binary) :OEVen? | OE? (Returns quoted string)
:RSVD ’<character_data>’ (2 chars required: binary) :RSVD? (Returns quoted string)
:CB13 | C13 ’<character_data>’ (1 char required: binary) :CB13? | C13? (Returns quoted string)
:CB12 | C12 ’<character_data>’ (1 char required: binary) :CB12? | C12? (Returns quoted string)
:VMACode ’<character_data>’ (3 chars required: binary) :VMACode? (Returns quoted string)
:CHANnel ’<character_data>’ (11 chars required: binary) :CHANnel? (Returns quoted string)
:PARity? (Returns quoted string)
HESE COMMANDS SET/QUERY THE MESSAGE FIELDS FOR NHO MES (NARROW
T HANDOFF MESSAGE). THE MESSAGE FIELDS FOR NHO MES ARE FOUND ON THE
CALL BIT SCREEN.
100
S:\HP8924C\QK_REF\BOOK\SECTIONS\callproc.sec
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