Agilent Technologies 60502B, 60501B service manual Mnemonic, Sheet 1C, 7D 1B, 6D, 8C,8B

Page 33

Table 4-2. Signal-Name Descriptions

Mnemonic

+S - S

SA_EN*

SD SDB SKP SLEW SLW1,SLW2,SLW3,SLW4

SPCLR*

SPROG

SRX

START

STAT_EN

STB*

STOP

STX

S0, S1, S2

TEMP1

TMONR

TOGGLE*

TRANS_EN

TRIG

TRIG_EN*

UNREG*

UXFER

VMON

VMON*

VMONR

VREF

X

-10V_REF

+15V -15V

+ 12V_REF

Function

CONTROL BOARD

Remote + sense (A) from rear-panel + S Remote - sense (A) from rear-panel - S Secondary ∝P SA enable (D) from TP301-1 Secondary ∝P data bus (D)

Secondary ∝P data bus, buffered (D) Skip self-test (D) from TP301-5 Programming-voltage input to slew circuit (A) Slew-rate control signals (D)

Secondary-circuit power-on clear (D)

(not used)

Secondary-∝P receiver (D) Secondary-∝P SA start signal (D) Enable status latch (D)

Enable chip-select decoder (D) Secondary-∝P SA stop signal (D) Secondary-∝P transmitter (D) Chip-select-decoder input (D) Power-board temperature (A) Temperature-monitor-comparator output (D) Toggle mode select (D)

Transient-generator clear and enable (D)

Secondary-∝P SA start/stop (D) Trigger (D)

Main and transient DACs trigger enable (D) Unregulated-input status (D)

Main and transient DACs transfer control (D) Voltage-monitor output (A) to rear-panel A2 Input-voltage monitor signal (A) to rear panel A2 CR-mode middle-&-high-range DAC Ref (A) Voltage-monitor-comparator output (D)

Voltage reference for DACs (A)

(not used)

DAC reference for CV and CC modes (A)

To power board (A) To power board (A)

Ref for readback DAC & main DAC self-test (A)

Sheet 1

Sheet 2

 

1C

1C, 7D

1C

 

1B, 6D

 

5B

4C, 5A

8C,8B,

 

8C,7C,

 

5C

 

lB,7D,6D,

8D

5D

2D

8D

 

1B

 

4D, 3D

 

7C, 2D

 

1B

 

8D, 1B

 

7C, 2D

5A

 

6D

4A

6B

4A

4D, 8B,

 

7B

 

4D, 1B

 

6A

8C

4D

8D

3D

 

7C

8D

 

1C, 1C

 

3C, 6A

 

5D

6D

4A

 

6D, 8B,

3D

5C

2B, 4D,

 

 

6A

 

1A, 5B,

 

7B, 5D,

 

2B

Sheet 3

2C

2C

2D,2A

2C

5B

5A

2C

5B

2A

2A

5D, 2B

5C, 2B

2B

(A) = analog signal

(D) = digital signal

8C = signal origin

33

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Contents Electronic Load Modules Certification Safety Summary Table of Contents Troubleshooting Precautions About This ManualManual Revisions Store calibration constants in Eeprom Module InitializationTest Equipment Required Introduction60501B 60502B CC Mode TestTest Setup B CV Mode TestCR Mode Test Check the middle ohms range as follows Press Then Transient Operation and Slew Circuit Test CC Mode Power Limit CC Mode Pard TestPage Performance Test Record Agilent 60501B Load Module Page 1 Performance Test Record Agilent 60501B Load Module Page 2 Specification UncertaintyTest Description Minimum Results MeasurementAgilent 60502B Performance Test Record Agilent 60502B Load Module Page 1Model Agilent 60502B Performance Test Record Agilent 60502B Load Module Page 2How To Order Parts Reference DesignatorsPart Description Abbreviations Description Designation NumberFUSE-SUBMINIATURE .5A Designation Number IC Quad Nand SET/RESET Latch Cmos Agilent Part Number ModelNot Used RESISTOR-NET 10-PIN SIP MULTI-VALUE Model RT2 Quantity Description Number Agilent 60501B/60502B Mechanical PartsPage Schematic Diagrams Schematic Diagram NotesCommon +5V Signal-Name Descriptions Mnemonic Function Sheet1D, 1C Mnemonic Sheet 1C, 7D 1B, 6D8C,8B Power Board Signal-Name Descriptions Mnemonic Function SheetPage Page Page Page Page Page
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60501B, 60502B specifications

Agilent Technologies 60502B is a high-performance signal generator designed for a wide range of applications, including aerospace, telecommunications, and research and development. As part of Agilent's advanced suite of test and measurement solutions, the 60502B provides users with the capability to generate high-quality signals with exceptional accuracy and stability.

One of the standout features of the Agilent 60502B is its frequency range, which spans from 9 kHz to 6 GHz. This broad range enables engineers and technicians to work with various modulation formats and signal types, making it highly versatile for testing and development. The generator supports continuous wave (CW) signals as well as complex modulated signals, accommodating both narrowband and broadband applications.

The 60502B employs advanced direct digital synthesis (DDS) technology, ensuring accurate frequency generation with low phase noise. This technology is essential for applications that require high precision and minimal signal distortion, such as radar and communication systems. The generator’s phase noise performance is exceptional, which enhances its capability for demanding applications requiring signal integrity.

Another key characteristic of the Agilent 60502B is its output power handling. It can deliver output levels ranging from -130 dBm up to +10 dBm, enabling users to drive various loads and achieve optimal testing conditions. This flexibility is particularly beneficial in laboratory environments where different power levels are needed for different devices under test.

The user interface of the 60502B is designed for efficiency and ease of use. It incorporates a large display that provides real-time feedback on settings and signal characteristics, facilitating quick adjustments during testing. Furthermore, the generator is equipped with USB and GPIB interfaces, enabling seamless integration into automated test systems and easy connectivity to computers for remote control and data logging.

In addition to its robust hardware features, the Agilent 60502B supports a variety of modulation schemes, including AM, FM, PM, and pulse modulation. This capability allows users to simulate real-world signals and assess the performance of receivers and other components under various conditions.

Overall, the Agilent Technologies 60502B signal generator stands out in terms of performance, versatility, and user-friendliness. Its wide frequency range, advanced DDS technology, significant power output capabilities, and support for multiple modulation types make it an indispensable tool for engineers across various industries engaged in testing and development activities. Whether for research projects or routine maintenance tasks, the 60502B is built to deliver reliable and precise results.