Difference between revisions of "DRIVE50"
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− | [[file: | + | [[File:tindie-mediums.png|link=https://www.tindie.com/products/land_boards/5075-ohm-ttl-line-driver/]] |
+ | |||
+ | [[file:DRIVE50_P1080480-720PX.jpg]] | ||
== 50 Ohm Driver Card == | == 50 Ohm Driver Card == | ||
− | * Line driver | + | * "TTL" Level Line driver |
* 50 or 75 Ohm output impedance | * 50 or 75 Ohm output impedance | ||
+ | * BNC or SMA output connector | ||
* 10K pull-up on input | * 10K pull-up on input | ||
* Card is non-inverting | * Card is non-inverting | ||
− | * | + | * 1.5V-5.5V power |
− | * 3V | + | ** Typically 3.3V or 5V |
* 3-pin right angle 0.1" pitch input connector | * 3-pin right angle 0.1" pitch input connector | ||
+ | * (4) 4-40 mounting holes | ||
− | == Driver == | + | === Driver === |
− | * 5x paralleled [ | + | * 5x paralleled [https://www.ti.com/lit/ds/symlink/cd74ac14.pdf?HQS=dis-mous-null-mousermode-dsf-pf-null-wwe&ts=1658486403853&ref_url=https%253A%252F%252Fwww.mouser.com%252F 74AC14] drivers |
− | ** 24mA per pin | + | ** 24mA per pin max current output |
− | * | + | *** Symmetric high-low drive levels |
+ | ** Short-circuit proof | ||
+ | *** 5V, 250 Ohms to ground is 20 mA (pins are rated for 24 mA) | ||
+ | *** 0.125 W resistor (5V output through 249 ohm resistor with output shorted to ground is 0.1 W) | ||
+ | *** 3.3V, 250 Ohms to ground is 13.2 mA (pins are rated for 24 mA) | ||
+ | *** 0.125 W resistor (3.3V output through 249 ohm resistor with output shorted to ground is 0.044 W) | ||
+ | * Card has input buffer stage | ||
+ | * Schmitt Trigger Input | ||
* 3.3V, 250 Ohm resistors (/5) for 50 Ohm output | * 3.3V, 250 Ohm resistors (/5) for 50 Ohm output | ||
− | * | + | ** Normal output = 10 mA per pin |
− | * | ||
== Test == | == Test == | ||
+ | |||
+ | * Manual or Automated test methods | ||
+ | |||
+ | === Manual Test Method === | ||
* Supply Vcc 3.3V to 5V and ground | * Supply Vcc 3.3V to 5V and ground | ||
Line 27: | Line 41: | ||
** Should be 1/2 of Vcc with 50 Ohm terminator | ** Should be 1/2 of Vcc with 50 Ohm terminator | ||
** Should be Vcc without terminator | ** Should be Vcc without terminator | ||
+ | |||
+ | === Automated Test Software Method === | ||
+ | |||
+ | [[File:DRIVE50_P1080485-720PX.jpg]] | ||
+ | |||
+ | ==== Setup ==== | ||
+ | |||
+ | * [[QTPy49]] or [[QTPy49-01]] card | ||
+ | * [[QT Py (RP2040_based)]] card | ||
+ | ** Analog cable | ||
+ | ** GVS Cable to A1 | ||
+ | ** Analog in (BNC) to A0 on [[QTPy49]] | ||
+ | * [[MyMenu]] card | ||
+ | * Power card options | ||
+ | ** Connect USB-C to the [[QT Py (RP2040 based)]] or | ||
+ | ** Power from 9-12V to DC jack | ||
+ | * Terminator - dependent on build option | ||
+ | ** 50 Ohms | ||
+ | ** 75 Ohms | ||
+ | * Unit Under Test (UUT) | ||
+ | * [https://github.com/land-boards/QT-Py/blob/main/CircuitPython/lbcards/PulseGen/PulseGen_DRIVE50_Test.py PulseGen_DRIVE50_Test.py] | ||
+ | ** Test software for [[PulseGen]] and DRIVE50 cards | ||
+ | *** Auto-detects card type | ||
+ | ** Stored as code.py on [[QT Py (RP2040 based)]] to auto-run | ||
+ | |||
+ | ==== Procedure ==== | ||
+ | |||
+ | * Connect 3 pin power cable to card | ||
+ | * Connect BNC T to output of card | ||
+ | * Connect BNC female from tester to BNC T male | ||
+ | * Install 50 terminator to other side of BNC T | ||
+ | * Connect USB C cable | ||
+ | * Display will show | ||
+ | |||
+ | <pre> | ||
+ | PulseGen/DRIVE50 V1.1 | ||
+ | 50 Ohm card | ||
+ | Set/Got Low | ||
+ | Term High = OK | ||
+ | </pre> | ||
+ | |||
+ | * All 3 LEDs are on | ||
+ | |||
+ | == Application Example == | ||
+ | |||
+ | === GPS Frequency Standard === | ||
+ | |||
+ | [[file:GPS_Freq_Std_P18490-720px.jpg]] | ||
+ | |||
+ | * [[GPS_Frequency_Standard|GPS Frequency Standard]] | ||
+ | * Card takes in PPS signal out of GPS module and drives 50 Ohm, 10 MHz Frequency Standard output on coax via BNC connector | ||
== Mechanicals == | == Mechanicals == |
Latest revision as of 11:25, 20 August 2022
Contents
50 Ohm Driver Card
- "TTL" Level Line driver
- 50 or 75 Ohm output impedance
- BNC or SMA output connector
- 10K pull-up on input
- Card is non-inverting
- 1.5V-5.5V power
- Typically 3.3V or 5V
- 3-pin right angle 0.1" pitch input connector
- (4) 4-40 mounting holes
Driver
- 5x paralleled 74AC14 drivers
- 24mA per pin max current output
- Symmetric high-low drive levels
- Short-circuit proof
- 5V, 250 Ohms to ground is 20 mA (pins are rated for 24 mA)
- 0.125 W resistor (5V output through 249 ohm resistor with output shorted to ground is 0.1 W)
- 3.3V, 250 Ohms to ground is 13.2 mA (pins are rated for 24 mA)
- 0.125 W resistor (3.3V output through 249 ohm resistor with output shorted to ground is 0.044 W)
- 24mA per pin max current output
- Card has input buffer stage
- Schmitt Trigger Input
- 3.3V, 250 Ohm resistors (/5) for 50 Ohm output
- Normal output = 10 mA per pin
Test
- Manual or Automated test methods
Manual Test Method
- Supply Vcc 3.3V to 5V and ground
- Input is pulled up to Vcc
- Measure output with BNC T
- Should be 1/2 of Vcc with 50 Ohm terminator
- Should be Vcc without terminator
Automated Test Software Method
Setup
- QTPy49 or QTPy49-01 card
- QT Py (RP2040_based) card
- Analog cable
- GVS Cable to A1
- Analog in (BNC) to A0 on QTPy49
- MyMenu card
- Power card options
- Connect USB-C to the QT Py (RP2040 based) or
- Power from 9-12V to DC jack
- Terminator - dependent on build option
- 50 Ohms
- 75 Ohms
- Unit Under Test (UUT)
- PulseGen_DRIVE50_Test.py
- Test software for PulseGen and DRIVE50 cards
- Auto-detects card type
- Stored as code.py on QT Py (RP2040 based) to auto-run
- Test software for PulseGen and DRIVE50 cards
Procedure
- Connect 3 pin power cable to card
- Connect BNC T to output of card
- Connect BNC female from tester to BNC T male
- Install 50 terminator to other side of BNC T
- Connect USB C cable
- Display will show
PulseGen/DRIVE50 V1.1 50 Ohm card Set/Got Low Term High = OK
- All 3 LEDs are on
Application Example
GPS Frequency Standard
- GPS Frequency Standard
- Card takes in PPS signal out of GPS module and drives 50 Ohm, 10 MHz Frequency Standard output on coax via BNC connector