1. The subject of the order is the delivery of a portable vector network analyzer with numerical simulation software and accessories to the Institute of Agrophysics of B. Dobrzański Polish Academy of Sciences in Lublin.

2. The scope of the contract includes the delivery of a vector analyzer and accessories to the Institute of Agrophysics B. Dobrzański Polish Academy of Sciences in Lublin.

3. List of required technical and operational parameters Annex 1 to the ToR.

4. Requirements for the subject of the contract:

4.1. The Employer requires the delivery of brand new equipment, undamaged, not regenerated, not previously the subject of exhibitions and presentations, complete and ready for use after installation (i.e. without any additional purchases and investments), not encumbered by the rights of third parties.

4.2. The warranty and service conditions cannot be worse than the warranty and service conditions of the manufacturer of the offered equipment.

Portable vector network analyzer with numerical simulation software and accessories - 1 item

Required parameters - minimal

1. Two-port vector network analyzer with parameters (1 item):

1.1 impedance of measuring gates 50 Ohm

1.2 3.5 mm measuring gate connector

1.3. Frequency range from not more than 100 kHz to not less than 20 GHz

1.4 measured parameters:

- dispersion parameters S11, S12, S21, S22

- complex wave amplitudes a1, b1, a2, b2 when excited from single gates (1 or 2)

1.5 maximum number of measuring points at least 500,000

1.6 output power range from not more than -50 dBm to not less than 10 dBm

1.7 resolution of output power setting not worse than 0.1 dBm

1.8 dynamic range (IF = 1 Hz):

- 100 kHz - 10 MHz: at least 120 dB

- 10 MHz - 20 GHz: at least 140 dB

1.9 directionality (without correction):

- in the 100 kHz - 10 MHz range at least 10 dB

- in the 10 MHz range - 20 GHz at least 15 dB

1.10 matching measuring gates (without correction):

- in the 100 kHz - 10 MHz range at least 10 dB

- in the 10 MHz range - 20 GHz at least 15 dB

1.11 maximum DC voltage at 35 V input port

1.12 Time Domain and "gating" option, support for measurements via a USB 2.0 port connected to a PC working with Windows 7 or newer - owned by the Employer (dedicated software)

1.13 Warranty: minimum 12 months

2. One port vector network analyzer with parameters (2 pcs):

2.1 impedance of measuring gates 50 Ohm

2.2 Type-N measurement gate connector

2.3. The frequency range from not more than 1 MHz to not less than 6 GHz

2.4 maximum number of measuring points at least 100,000

2.5 output power range from not more than -30 dBm to not less than -5 dBm

2.6 resolution of output power setting not worse than 0.5 dBm

2.7 dynamic range at least 100 dB (IF = 1 Hz)

2.8 directivity (without correction) at least 15 dB

2.9 matching the measurement gates (without correction) at least 15 dB

2.10 maximum DC voltage at the 50 V input port

2.11 power supply and measurement support via USB 2.0 port connected to a PC working with Windows 7 or newer - owned by the Employer (dedicated software)

2.12 Warranty: minimum 12 months

3. NMD 3.5 mm female / 3.5 mm female adapter (2 pcs):

3.1 frequency range: DC to at least 26.5 GHz

3.2 Warranty: minimum 12 months

4. Short-open-load-thru calibration kit with 3.5 mm female connector (1 piece):

4.1 frequency range: DC to at least 26.5 GHz

4.2 Warranty: minimum 12 months

5. A software tool for the simulation of high-frequency electromagnetic fields having the following parameters:

5.1 full wave formulation of problems of EM field simulation using the finite element method

5.2 graphic three-dimensional editor of simulated structures

5.3 calculation of S, Y, Z parameters of simulated structures

5.4 three-dimensional visualization of the calculated EM fields with the possibility of animation

5.5 generating charts of EM field radiation in the far and near zone

5.6 creating models of calculated structures in SPICE format

5.7 calculating parameters of finite antenna arrays

5.8 automated adaptive finite element mesh creation for a simulated structure

5.9 calculation of EM fields by methods:

- finite elements in the frequency domain

- finite elements in the time domain

- integral equations

- ray-tracing

- a hybrid method combining the finite element method in the frequency domain and the integral equation method

- 2.5D torque method for planar structures

5.10 acceleration of calculations using multiple processor cores (the ability to perform calculations on up to 16 CPU cores under the available license)

5.11 optimization of parameters of simulated structures

5.12 libraries of typical dielectric materials and guides

Attention! Due to the lack of technical possibilities to place a full description of the Object of the Order, the Employer refers to item VI.3