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Find us at www. keysi ght.com Page 7 This is a co mplete l ist of th e technic al specif ications f or the N5 2 27B PNA ne twork analyzer with the following opt ions (s ee block dia grams a t the end of this doc ument ):…

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N5227B Dynamic Accuracy, 10 MHz - Specification .................................................................................. 65

N5227B Dynamic Accuracy, 50 MHz - Specification .................................................................................. 65

N5227B Dynamic Accuracy, 500 MHz - Specification ................................................................................ 66

N5227B Dynamic Accuracy, 1 GHz - Specification .................................................................................... 66

N5227B Dynamic Accuracy, 2 GHz - Specification .................................................................................... 66

N5227B Dynamic Accuracy, 20 GHz - Specification .................................................................................. 67

N5227B Dynamic Accuracy, 26.5 GHz - Specification ............................................................................... 67

N5227B Dynamic Accuracy, 35 GHz - Specification .................................................................................. 67

N5227B Dynamic Accuracy, 40 GHz - Specification .................................................................................. 68

N5227B Dynamic Accuracy, 50 GHz - Specification .................................................................................. 68

N5227B Dynamic Accuracy, 60 GHz - Specification .................................................................................. 69

N5227B Dynamic Accuracy, 67 GHz - Specification .................................................................................. 69

Table 72. Group Delay

- Typical ................................................................................................................ 70

General Information .................................................................................................................................... 71

Table 73. Miscellaneous Information .......................................................................................................... 71

Table 74. Front Panel Information, All Options ........................................................................................... 71

Table 75. Rear Panel Information, All Options ............................................................................................ 72

Table 76. Analyzer Dimensions and Weight ............................................................................................... 75

Regulatory and Environmental Information ............................................................................................. 75

Measurement Throughput Summary .......................................................................................................... 76

Table 77. Cycle Time (ms) for Measurement Completion, All Models, All Options - Typical ..................... 76

Table 78. Cycle Time (ms) for Full-Span Measurement Completion - Typical ........................................... 76

Table 79. Cycle Time vs. IF Bandwidth - Typical ........................................................................................ 77

Table 80. Cycle Time (ms) vs. Number of Points - Typical ......................................................................... 78

Table 81. Data Transfer Time

(ms) - Typical ............................................................................................. 79

Front-Panel Jumpers ................................................................................................................................... 80

Table 82. Measurement Receiver Inputs (dBm) - Typical .......................................................................... 80

Table 83. Port 1 Reference Receiver Inputs and Reference Source Outputs (dBm) - Typical .................. 81

Table 84. Port 2, 3, 4 Reference Receiver Inputs and Reference Source Outputs (dBm) - Typical .......... 82

Table 85. Source Outputs (dBm) - Typical .................................................................................................. 83

Table 86. Coupler Inputs (dB) - Typical ...................................................................................................... 84

Table 87. Damage Level - Typical .............................................................................................................. 84

Test Set Block Diagrams ............................................................................................................................. 85

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This is a complete list of the technical specifications for the N5227B PNA network analyzer with the

following options (see block diagrams at the end of this document):

2-Port Models

Option 200 - 2-port base model with standard test set.

Option 201 - To base model, adds front-panel jumpers and R1 receiver switch.

Option 219 - To base model, adds front-panel jumpers, R1 receiver switch, source and receiver

attenuators (extended power range), and bias-tees.

4-Port Models

Option 400 - 4-port base model with standard test set.

Option 401 - To base model, adds front-panel jumpers and R1 receiver switch.

Option 419 - To base model, adds front-panel jumpers, R1 receiver switch, source and receiver

attenuators (extended power range), and bias-tees.

Table 1. Low-Frequency Extension (LFE) Options

Option Description

2-Port Model

205

2-port standard test set (includes six front-panel access loops), R1 receiver switch, and low

frequency extension (LFE) hardware.

220

2-port standard test set (includes six front-panel access loops), R1 receiver switch, source

and receiver attenuators (extended power range), bias-tees, and low frequency extension

(LFE) hardware.

4-Port Models

405

4-port standard test set (includes six front-panel access loops), R1 receiver switch, and low

frequency extension (LFE) hardware.

420

4-port standard test set (includes six front-panel access loops), R1 receiver switch, source

and receiver attenuators (extended power range), bias-tees, and low frequency extension

(LFE) hardware.

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Notes

This document provides technical specifications for the 85058B calibration kit and N4694A/D ECal

module.

Please download our free Uncertainty Calculator from http://www.keysight.com/find/na_calculator to

generate the curves for your calibration kit and PNA setup.

Typical performance information between 67 GHz and 70 GHz is shown in this document where

available. The performance is degraded at particular frequencies in this range due to the modes of the

1.85 mm connectors used in the analyzer, test port cables and adapters.

For all tables in this document, the specified performance at the exact frequency of a break is the

degraded value of the two specifications at that frequency.

Definitions

All specifications and characteristics apply over a 25 °C ±5 °C range (unless otherwise stated) and 90

minutes after the instrument has been turned on.

Specification (spec.): Warranted performance. Specifications include guardbands to account for the

expected statistical performance distribution, measurement uncertainties, and changes in performance

due to environmental conditions.

Characteristic (char.): A performance parameter that the product is expected to meet before it leaves

the factory, but that is not verified in the field and is not covered by the product warranty. A

characteristic includes the same guardbands as a specification.

Typical (typ.): Expected performance of an average unit which does not include guardbands. It is not

covered by the product warranty.

Nominal (nom.): A general, descriptive term that does not imply a level of performance. It is not

covered by the product warranty.

Supplemental performance data (SPD): A performance parameter that is tested on a minimal set of

products during design validation. It does not include guardbands, and is not covered by the product

warranty.

Calibration: The process of measuring known standards to characterize a network analyzer's

systematic (repeatable) errors.

Corrected (residual): Indicates performance after error correction (calibration). It is determined by the

quality of calibration standards and how well "known" they are, plus system repeatability, stability, and

noise.

Uncorrected (raw): Indicates instrument performance without error correction. The uncorrected

performance affects the stability of a calibration.

Standard: When referring to the analyzer, this includes no options unless noted otherwise.