Leader LBO-5880 Osciloscopio
Fabricante:
Modelo:
LBO-5880
Fecha:
1998
Categoría:
Grupo:
Descripción:
Programmble Oscilloscope

Información

The LBO-588CI is a dual trace, delayed-sweep, programmable Oscilloscope that allows all scope mode settings. This includes variable controls which are easily stored in a 100-address internal memory and can be recalled whenever needed. It features 5 mV/div (30 MHz) and 1 mV/div (20 MHz: MAG X 5), and a maximum sweep rate of 20 ns/div (MAG X 10), with a 6-inch rectangular metal-back CRT with a high-brightness, internal graticule. T le waveform clamping function of the LBO-5880 and its ability to set two marker cursors for waveform amplitude adjustment provide an ideal measuring instrument for use in the production and servicing of TV sets and VTRs. 2. FEATURES 1 Oscilloscope Section The 6-inch rectangular CRT with an internal graticule, supported by regulated high-acceleration voltage power supplies, yields accurate, error-free measurement reading. The aluminized CRT also offers added intensity, assuring adequate brightness for delayed sweeps. Scale illumination and beam rotation functions are also provided. A single-key selection of high-sensitive 1 mV/div (20 MHz) facilitates the measurement of ripples in regulated power supplies and weak signals in biological and other research activities. The delayed sweep function, independent A and B trigger selection function, and separate external trigger input connectors support a wide range of observations. The maximum sweep rate can be quickly magnified to 20 ns/div by the 10 (times) magnifier, thus enabling the display of 30 MHz waveforms in six sweep periods on the screen. The ALT trigger function yields static waveforms of two types of signals with different timing relations. A built-in synchronous sampling circuit eases synchronization with TV composite video signals. Since the vertical (VIDEO-V) and horizontal (VIDEO-H) sweep periods are selectable regardless of the TIME/DIV switch setting, the waveform in the horizontal sweep period can be synchronized and observed with the vertical sweep period. Variable hold-off time enables video signals and pulse strings from computers (such as digital word pulses) to be observed in stabilized periods. The B ENDS A function lessens flickering during magnified delayed sweeps. ADD and CH 2 polarity selections make it possible to observe the sum of difference between two signals and to also display an accurate picture of push-pull signals. Signals applied to CH 1 can be isolated from the vertical preamp via a buffer. Since this output is about 0.1 V p-p per division on the screen, the LBO-5880 can be used as a super-high sensitive Counter when this output is connected to a Counter. The LBO-5880 can be switched by a one-key operation to an X-Y Oscilloscope having CH 1 as the X-axis and CH 2 as the Y-axis. Extensive use of custom ICs establishes enhanced reliability. The GND TEST switch allows checking the GND level at a single touch, independently of the program. Each function mode of the Oscilloscope is constantly displayed on a panel LED. This LED display can be suppressed by a switch.

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Manual del usuario
Type manuel:
Manual del usuario
Páginas:
100
Tamaño:
25.59 Mbytes (26836427 Bytes)
Idioma:
english
Revisión:
Manuel-ID:
98020.1
Fecha:
1998 02 10
Formato:
Documento Scaned, todo legible.
Fecha de subida:
2017 09 11
MD5:
863635ab5ff6b45d9f9c4012424d83d7
Descargas:
873

Información

INTRODUCTION ... FEATURES ... 2.1 Oscilloscope Section ... 2.2 Memory Section ... SPECIFICATIONS ... 3.1 Oscilloscope Section ... 3.2 Memory Section ... 3.3 Others ... BLOCK DIAGRAM ... PANEL DESCRIPTION ... 5.1 General Appearance ... 5.2 Front Panel ... 5.3 Power Supply/CRT Display Block ... 5.4 Program Controller Block ... . . 5.4.1 Operating modes ... 5.4.2 Editor ... 5.5 Vertical Amplifier ... 5.6 Horizontal Amplifier ... 5.7 Trigger Block ... 5.8 Rear Panel ... OPERATING NOTES ... 6.1 Observe Supply Voltage Rating ... 6.2 Do Not Apply Excessive Input Voltage ... 6.3 Do Not Use in a Strong Magnetic Field ... 6.4 Avoid Using in a High Temperature, Damp Place . . . . 6.5 Notes on CRT ... 6.6 Turn Power Switch Off Before Connecting Bus Cables 6.7 Notes on Connecting to a Transformer-less Device . . . 6.8 Notes on Shutdown ... 6.9 Notes on Memory Write Protection ... Probe TYPES AND SELECTION ... BASIC OPERATIONS ... 8.1 Displaying a Horizontal Trace | ABORT 1 + 1 BEGINi GENERAL OPERATIONS ... 9.1 Setting BEGIN and END Addresses ... 9.2 Writing to Memory ... 9.3 Editing Programs ... 9.3.1 Changing only control settings, such as POSITION and VARIABLE ... 9.3.2 Altering modes other than controls ... 9.4 Editing Program Addresses ... 9.4.1 DELETE (Deletion) ... 9.4.2 INSERT (Insertion) ... 9.4.3 EXCHANGE INC (Exchanging with the next address) ... 38 9.4.4 EXCHANGE DEC (Exchanging with the previous address) ... 38 9.5 Manual Operations ... 39 9.6 Program Transfer (SAVE/LOAD) ... 39 9.6.1 Transferring the entire program from address 0 to address 99 ... 40 9.6.2 Transferring an address range ... 41 9.6.3 Transferring an address range with an offset ... 41 9.6.4 Transferring only one address ... 41 9.7 Error Massages during Program Transfer . ... 42 9.8 LOAD/SAVE Data Format Description ... 42 9.8.1 Data format (General) ... 42 9.8.2 Signal line description ... 44 9.8.3 Data format (Detailed) ... 46 9.8.4 Saving and loading data by microcomputer ... 49 9.9 Printing Programs (PRINT) ... 50 9.9.1 Setup ... 50 9.9.2 BEGIN-END printing ... 51 9.9.3 SINGLE printing ... 54 9.9.4 Print applications ... 54 9.9.5 Print codes ... 56 9.9.6 Printing codes table ... 57 9.9.7 Printing bus connector pin arrangement ... 57 9.10 REMOTE (Address Remote Control) ... 58 9.10.1 Signal line definitions ... 58 9.10.2 Controlling with binary code ... 59 9.10.3 Controlling with BCD (binary coded decimal) code ... 59 9.10.4 Notes on switching with a digital switch or the like ... 60 9.10.5 Parallel operation ... 60 9.11 Address Data Output ... 61 9.11.1 Signal line definitions ... 61 9.11.2 When normal address data is required ... 62 9.11.3 Address data code table ... 63 9.12 External Control (EXT CONTROL) Procedures ... 64 9.12.1 Signal line definitions ... 64 9.12.2 I/O BUS internal circuit diagram ... 65 9.12.3 Example of an external circuit and usage ... 66 9.13 AUTO INC ... 68 9.14 EXT INC, DEC, and BEGIN ... 69 9.14.1 INC, DEC, and BEGIN by EXT INC INPUT ... 69 9.14.2 INC, DEC, and BEGIN via I/O BUS ... 69 9.14.3 INC, DEC, and BEGIN by PC board connector ... 71 9.15 Recalling Program | ABORTl + [ END [ ... 72 9.16 Memory Write Protection ... 72 9.16.1 Setting write protection ... 72 9.16.2 Resetting write protection ... 72 9.16.3 Checking write protection status ... 73 10. CHECKING FUNCTIONS ... 10.1 Automatic Checks ... 10.2 I/O BUS Check f FUNC 31 + |lNC~| ... 10.3 OPERATING MODE Switch Check 1 FUNC 31 + [DEC [ ... 10.4 Memory Control Check 1 FUNC 3 + FlNC 10] ... 10.5 I/O PORT Check | FUNC 3| + |E)EC 101 ... 10.6 7-segment LED Check [ FUNC 3) + jBEGIN [ ... 10.7 Oscilloscope Control Key Check | FUNC 3~j + [END 1 ... 10.8 Printer Bus Check I FUNC 3] + I WRITEl ... 10.9 Audible Alarm and Blanking LED Check |FUNC 3[ + | INSERT) ... 10.10 Program ROM Version Number Display [FUNC 3| + | DELETEl ... 10.11 Printing Code Table [ FUNC 21 + flNCl ... 10.12 1 PTPl Switch Check | FUNC 21 + [DEC| ... 10.13 External Oscilloscope Control | FUNC 2 + | INC 101 ... 10.13.1 Signal line definitions ... 10.13.2 Application of external data Oscilloscope control ... 11. OPERATION CHART AND LED DISPLAYS ... 12. ERROR MESSAGES ... 12.1 Error Message Classifications ... 12.2 Error 28 ... 12.3 Error Codes . ... 13. PRINTING EXTERNAL CONTROL (EXT CONTROL DATA) FUNC 2[ + 1 BEGINl or [ END ... 13.1 BEGIN-END Printing | FUNC 21 + [END] ... 13.2 SINGLE Printing | FUNC 2] + [ BEGIN I ... 13.3 Print Applications ... 14. MAINTENANCE ...

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