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david rice
2026-04-02 16:04:45 +01:00
parent 106f03d806
commit 73c10f8987
1 changed files with 87 additions and 15 deletions
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mipi_test.py
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@@ -3,7 +3,7 @@
MIPI TEST APPLICATION - MIPI_TEST.PY MIPI TEST APPLICATION - MIPI_TEST.PY
- ENTRY POINT OF APPLICATION - ENTRY POINT OF APPLICATION
VERSION: 0.2 VERSION: 0.3
AUTHOR: D. RICE 25/03/2026 AUTHOR: D. RICE 25/03/2026
© 2026 ARRIVE © 2026 ARRIVE
""" """
@@ -12,12 +12,22 @@ import time
import sys import sys
import requests import requests
import threading import threading
from datetime import datetime
# --- Configuration --- # --- Configuration ---
URL = "http://192.168.45.8:5000/display" URL = "http://192.168.45.8:5000/display"
SCOPE_IP = "192.168.45.4" SCOPE_IP = "192.168.45.4"
PSU_IP = "192.168.45.3" PSU_IP = "192.168.45.3"
# --- Capture settings ---
# Pass 1 — signal quality: resolves individual bits at 140 Mbit/s (7.1 ns/bit)
SIG_SCALE = 2e-9 # 2 ns/div → 20 ns window
SIG_POINTS = 500_000 # 500 k pts → ~25 GSa/s
# Pass 2 — protocol/frame structure: shows LP↔HS transitions and burst envelope
PROTO_SCALE = 1e-6 # 1 µs/div → 10 µs window
PROTO_POINTS = 500_000 # 500 k pts → 50 MSa/s (enough to see burst structure)
test_running = False # Global flag to control the background thread test_running = False # Global flag to control the background thread
# --- Instrument Connection --- # --- Instrument Connection ---
@@ -155,24 +165,87 @@ def setup_math_channels():
print(f" COULD NOT READ ERROR QUEUE ({e})") print(f" COULD NOT READ ERROR QUEUE ({e})")
def save_screenshot(iteration): def _set_timebase(scale, points):
"""Save a PNG screenshot to C:\\TEMP on the scope's local disk.""" """Apply timebase scale and record length, then let the scope settle."""
scope.write(f":TIMebase:SCALe {scale:.3E}")
scope.write(f":ACQuire:POINts {points}")
time.sleep(0.3)
def _arm_and_wait(timeout=20):
"""
Fire a single acquisition and block until the scope stops (trigger + capture done).
Returns True on success, False on timeout.
"""
scope.write(":SINGle")
deadline = time.time() + timeout
while time.time() < deadline:
try: try:
filename = f"C:\\TEMP\\cap{iteration:04d}.png" # OPERegister bit 3 (mask 0x08) = instrument is running/armed.
print(f"SAVING SCREENSHOT: {filename}") # When it clears the acquisition is complete.
scope.write(f':DISK:SAVE:IMAGe "{filename}",PNG') cond = int(scope.ask(":OPERegister:CONDition?").strip())
time.sleep(5.0) # wait for scope to write file — do not query during this if not (cond & 0x08):
print("SCREENSHOT SAVED.") return True
except Exception:
pass
time.sleep(0.25)
print(" WARNING: ACQUISITION TIMEOUT — SCOPE MAY NOT HAVE TRIGGERED.")
return False
def _save_pass(tag, iteration, ts):
"""
Save F1 (CLK diff) and F2 (DAT diff) as CSV, plus a PNG screenshot.
Files land in C:\\TEMP on the scope's local disk.
Naming: <YYYYMMDD_HHMMSS>_<tag>_<iter>_clk.csv (date-first for easy sorting/deletion)
"""
base = f"C:\\TEMP\\{ts}_{tag}_{iteration:04d}"
try:
scope.write(f':DISK:SAVE:WAVeform FUNCtion1,"{base}_clk.csv",CSV')
time.sleep(2.5)
scope.write(f':DISK:SAVE:WAVeform FUNCtion2,"{base}_dat.csv",CSV')
time.sleep(2.5)
print(f" SAVED: {base}_clk.csv {base}_dat.csv")
except Exception as e: except Exception as e:
print(f"SCREENSHOT ERROR: {e}") print(f" SAVE ERROR ({tag}): {e}")
def dual_capture(iteration):
"""
Two-pass capture per test iteration:
Pass 1 — signal quality (SIG_SCALE / SIG_POINTS)
Pass 2 — frame structure (PROTO_SCALE / PROTO_POINTS)
Restores the original 5 ns/div timebase when done.
"""
ts = datetime.now().strftime("%Y%m%d_%H%M%S")
print(f"DUAL CAPTURE #{iteration:04d} [{ts}]")
# ── Pass 1: signal quality ─────────────────────────────────────────────
print(" PASS 1: SIGNAL QUALITY...")
_set_timebase(SIG_SCALE, SIG_POINTS)
if _arm_and_wait():
_save_pass("sig", iteration, ts)
else:
print(" SKIPPING PASS 1 SAVE.")
# ── Pass 2: frame/protocol structure ──────────────────────────────────
print(" PASS 2: FRAME STRUCTURE...")
_set_timebase(PROTO_SCALE, PROTO_POINTS)
if _arm_and_wait():
_save_pass("proto", iteration, ts)
else:
print(" SKIPPING PASS 2 SAVE.")
# ── Restore original timebase ─────────────────────────────────────────
_set_timebase(5e-9, 500_000)
scope.write(":RUN")
def test_worker(on_time): def test_worker(on_time):
""" """
Background loop: Background loop:
- Arms scope in single trigger mode - Turns display ON, waits on_time seconds for it to stabilise
- Turns display ON for on_time seconds - Runs dual_capture (signal quality + frame structure)
- Saves screenshot
- Turns display OFF for 1 second - Turns display OFF for 1 second
- Repeats until test_running = False - Repeats until test_running = False
""" """
@@ -180,10 +253,9 @@ def test_worker(on_time):
count = 1 count = 1
while test_running: while test_running:
scope.write(":SINGle")
requests.put(URL, json={"state": "on"}, timeout=2) requests.put(URL, json={"state": "on"}, timeout=2)
time.sleep(on_time + 0.5) # +0.5s to ensure acquisition completes time.sleep(on_time) # let display stabilise before arming
save_screenshot(count) dual_capture(count)
count += 1 count += 1
requests.put(URL, json={"state": "off"}, timeout=2) requests.put(URL, json={"state": "off"}, timeout=2)
time.sleep(1.0) time.sleep(1.0)