UMX9989AP
ActiveDIODE PIN SWITCH 2-PIN SMD T/R
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UMX9989AP
ActiveDIODE PIN SWITCH 2-PIN SMD T/R
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Technical Specifications
Parameters and characteristics commom to parts in this series
| Specification | UMX9989AP | UMX9989-LowMag-MELF-Fast-MRI-PIN Series |
|---|---|---|
| - | - | |
| Capacitance @ Vr, F | 8 pF | 5 - 8 pF |
| Diode Type | PIN - Anti-Parallel | PIN - Anti-Parallel, Standard - Single |
| Operating Temperature [Max] | 150 °C | 150 °C |
| Operating Temperature [Min] | -65 ░C | -65 ░C |
| Package / Case | Module | Module, SQ-MELF |
Pricing
Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly
| Distributor | Package | Quantity | $ | |
|---|---|---|---|---|
| Microchip Direct | N/A | 1 | $ 19.68 | |
| 50 | $ 18.89 | |||
| 100 | $ 17.77 | |||
| 250 | $ 16.97 | |||
| 500 | $ 16.33 | |||
| 1000 | $ 16.01 | |||
UMX9989-LowMag-MELF-Fast-MRI-PIN Series
Low-Mag-MELF-Fast-MRI-PIN
| Part | Operating Temperature [Min] | Operating Temperature [Max] | Package / Case | Capacitance @ Vr, F | Diode Type |
|---|---|---|---|---|---|
Microchip Technology UMX9989AP/TR | -65 ░C | 150 °C | Module | 8 pF | PIN - Anti-Parallel |
Microchip Technology UMX9989SM/TR | -65 ░C | 150 °C | SQ-MELF | 5 pF | Standard - Single |
Microchip Technology UMX9989AP | |||||
Microchip Technology UMX9989AP | -65 ░C | 150 °C | Module | 8 pF | PIN - Anti-Parallel |
Description
General part information
UMX9989-LowMag-MELF-Fast-MRI-PIN Series
The UMX9989AP is the first MRI switching diode module, designed to optimize performance and reduce assembly labor, cost, and polarity errors. There are two principle applications for which the UMX9989AP modules are intended: 1) MRI receiver protection from high RF energy fields, including long RF pulses and RF spike pulses present in most MRI machines. The UMX9989AP acts as a passive protector (limiter) for the MRI receiver’s LNA. The diode assembly exhibits extremely low insertion loss, both in the "on" state (high power present) and the "off" state (receiver power present) so the Receiver’s Noise Figure is not increased by the protector circuit. 2) Passive switching of surface coil detuning and blocking circuits. In this case, the flow of loop current during transmitter pulse turns on the diodes, without a switch driver.
Documents
Technical documentation and resources