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base: adebaumann:Debug
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adebaumann:main adebaumann:review adebaumann:debug2 adebaumann:debug adebaumann:feature/vfdcontroller adebaumann:feature/speed-in-ha adebaumann:Debug adebaumann:feature/overshoot adebaumann:feature/leds
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compare: adebaumann:59721477df191c72e0a51b6ff9b31c4e5adfb2ef
Branches Tags
adebaumann:main adebaumann:review adebaumann:debug2 adebaumann:debug adebaumann:feature/vfdcontroller adebaumann:feature/speed-in-ha adebaumann:Debug adebaumann:feature/overshoot adebaumann:feature/leds

8 Commits
Debug ... 59721477df

Author SHA1 Message Date
Adrian A. Baumann
59721477df LED Names changed 2026-04-17 22:28:16 +02:00
Adrian A. Baumann
7be9b59093 Garbage collection added 2026-04-17 22:19:48 +02:00
Adrian A. Baumann
9a25805522 MQTT troubleshooting 2026-04-17 22:17:49 +02:00
Adrian A. Baumann
44afc207ea Speed and acceleration no longer hidden, but in config. 2026-04-17 22:09:18 +02:00
Adrian A. Baumann
549a7c7d37 MQTT doesn't autodiscover properly 2026-04-17 21:24:17 +02:00
Adrian A. Baumann
10ef3580b2 MQTT doesn't autodiscover properly 2026-04-17 21:21:29 +02:00
Adrian A. Baumann
f78d090f95 MQTT doesn't like non-ASCII... 2026-04-17 19:15:01 +02:00
Adrian A. Baumann
ef986c2881 Added speed and acceleration to Home Assistant 2026-04-17 19:10:43 +02:00
2 changed files with 308 additions and 129 deletions
Expand all files Collapse all files

4
config.example.json
View File

@@ -33,6 +33,8 @@
"min": 0, "min": 0,
"max": 7300, "max": 7300,
"max_steps": 4000, "max_steps": 4000,
"speed": 5000,
"acceleration": 6000,
"unit": "W", "unit": "W",
"leds": { "leds": {
"ws2812_red": [255, 0, 0], "ws2812_red": [255, 0, 0],
@@ -45,6 +47,8 @@
"min": 0, "min": 0,
"max": 7300, "max": 7300,
"max_steps": 4000, "max_steps": 4000,
"speed": 5000,
"acceleration": 6000,
"unit": "W", "unit": "W",
"leds": { "leds": {
"ws2812_red": [255, 0, 0], "ws2812_red": [255, 0, 0],

433
gauge.py
View File

@@ -24,6 +24,7 @@ Additional config.json fields:
import network import network
import utime import utime
import ujson import ujson
import gc
from umqtt.robust import MQTTClient from umqtt.robust import MQTTClient
from machine import UART from machine import UART
@@ -114,6 +115,8 @@ if "gauges" in _cfg:
"min": float(g.get("min", 0)), "min": float(g.get("min", 0)),
"max": float(g.get("max", 100)), "max": float(g.get("max", 100)),
"max_steps": int(g.get("max_steps", 4000)), "max_steps": int(g.get("max_steps", 4000)),
"speed": float(g.get("speed", 5000.0)),
"acceleration": float(g.get("acceleration", 6000.0)),
"entity_name": g.get("entity_name", f"Gauge {i + 1}"), "entity_name": g.get("entity_name", f"Gauge {i + 1}"),
"unit": g.get("unit", ""), "unit": g.get("unit", ""),
"ws2812_red": tuple(led_cfg.get("ws2812_red", [255, 0, 0])), "ws2812_red": tuple(led_cfg.get("ws2812_red", [255, 0, 0])),
@@ -128,6 +131,8 @@ else:
"min": float(_cfg.get("gauge_min", 0)), "min": float(_cfg.get("gauge_min", 0)),
"max": float(_cfg.get("gauge_max", 7300)), "max": float(_cfg.get("gauge_max", 7300)),
"max_steps": int(_cfg.get("gauge_max_steps", 4000)), "max_steps": int(_cfg.get("gauge_max_steps", 4000)),
"speed": float(_cfg.get("gauge_speed", 5000.0)),
"acceleration": float(_cfg.get("gauge_acceleration", 6000.0)),
"entity_name": _cfg.get("gauge_entity_name", "Selsyn 1 Power"), "entity_name": _cfg.get("gauge_entity_name", "Selsyn 1 Power"),
"unit": _cfg.get("gauge_unit", "W"), "unit": _cfg.get("gauge_unit", "W"),
"ws2812_red": tuple(_cfg.get("ws2812_red", [255, 0, 0])), "ws2812_red": tuple(_cfg.get("ws2812_red", [255, 0, 0])),
@@ -194,6 +199,14 @@ def gauge_zero(gauge_idx):
arduino_send(f"ZERO {gauge_idx}") arduino_send(f"ZERO {gauge_idx}")
def gauge_set_speed(gauge_idx, speed):
arduino_send(f"SPEED {gauge_idx} {speed}")
def gauge_set_acceleration(gauge_idx, acceleration):
arduino_send(f"ACCEL {gauge_idx} {acceleration}")
def _set_led(gauge_idx, idx, r, g, b): def _set_led(gauge_idx, idx, r, g, b):
arduino_send(f"LED {gauge_idx} {idx} {r} {g} {b}") arduino_send(f"LED {gauge_idx} {idx} {r} {g} {b}")
@@ -251,6 +264,8 @@ def _apply_blink_or_led(gauge_idx, led_idx, color, effect):
gauge_targets = [g["min"] for g in gauges] gauge_targets = [g["min"] for g in gauges]
gauge_last_rezero = [utime.ticks_ms() for _ in gauges] gauge_last_rezero = [utime.ticks_ms() for _ in gauges]
gauge_speeds = [g["speed"] for g in gauges]
gauge_accelerations = [g["acceleration"] for g in gauges]
backlight_color = [(0, 0, 0) for _ in range(num_gauges)] backlight_color = [(0, 0, 0) for _ in range(num_gauges)]
backlight_brightness = [100 for _ in range(num_gauges)] backlight_brightness = [100 for _ in range(num_gauges)]
@@ -378,6 +393,12 @@ def make_gauge_topics(prefix, gauge_id):
"status": f"{prefix}/gauge{gauge_id}/status", "status": f"{prefix}/gauge{gauge_id}/status",
"zero": f"{prefix}/gauge{gauge_id}/zero", "zero": f"{prefix}/gauge{gauge_id}/zero",
"disc": f"homeassistant/number/{MQTT_CLIENT_ID}_g{gauge_id}/config", "disc": f"homeassistant/number/{MQTT_CLIENT_ID}_g{gauge_id}/config",
"speed": f"{prefix}/gauge{gauge_id}/speed/set",
"speed_state": f"{prefix}/gauge{gauge_id}/speed/state",
"speed_disc": f"homeassistant/number/{MQTT_CLIENT_ID}_g{gauge_id}_speed/config",
"acceleration": f"{prefix}/gauge{gauge_id}/acceleration/set",
"acceleration_state": f"{prefix}/gauge{gauge_id}/acceleration/state",
"acceleration_disc": f"homeassistant/number/{MQTT_CLIENT_ID}_g{gauge_id}_acceleration/config",
"led_red": f"{prefix}/gauge{gauge_id}/led/red/set", "led_red": f"{prefix}/gauge{gauge_id}/led/red/set",
"led_green": f"{prefix}/gauge{gauge_id}/led/green/set", "led_green": f"{prefix}/gauge{gauge_id}/led/green/set",
"led_bl": f"{prefix}/gauge{gauge_id}/led/backlight/set", "led_bl": f"{prefix}/gauge{gauge_id}/led/backlight/set",
@@ -503,6 +524,32 @@ def on_message(topic, payload):
warn(f"Invalid set value for gauge {i}: '{payload}'") warn(f"Invalid set value for gauge {i}: '{payload}'")
return return
if topic == gt["speed"]:
try:
speed = float(payload)
if speed <= 0.0:
raise ValueError
gauge_speeds[i] = speed
gauge_set_speed(i, speed)
_publish(gt["speed_state"], str(speed), retain=True)
info(f"Gauge {i} speed -> {speed}")
except ValueError:
warn(f"Invalid speed for gauge {i}: '{payload}'")
return
if topic == gt["acceleration"]:
try:
acceleration = float(payload)
if acceleration <= 0.0:
raise ValueError
gauge_accelerations[i] = acceleration
gauge_set_acceleration(i, acceleration)
_publish(gt["acceleration_state"], str(acceleration), retain=True)
info(f"Gauge {i} acceleration -> {acceleration}")
except ValueError:
warn(f"Invalid acceleration for gauge {i}: '{payload}'")
return
if topic == gt["led_red"]: if topic == gt["led_red"]:
try: try:
data = ujson.loads(payload) data = ujson.loads(payload)
@@ -680,6 +727,8 @@ def _subscribe_all(c):
prefix = f"{MQTT_PREFIX}/gauge{i}" prefix = f"{MQTT_PREFIX}/gauge{i}"
c.subscribe(f"{prefix}/set") c.subscribe(f"{prefix}/set")
c.subscribe(f"{prefix}/zero") c.subscribe(f"{prefix}/zero")
c.subscribe(f"{prefix}/speed/set")
c.subscribe(f"{prefix}/acceleration/set")
c.subscribe(f"{prefix}/led/red/set") c.subscribe(f"{prefix}/led/red/set")
c.subscribe(f"{prefix}/led/green/set") c.subscribe(f"{prefix}/led/green/set")
c.subscribe(f"{prefix}/led/backlight/set") c.subscribe(f"{prefix}/led/backlight/set")
@@ -707,6 +756,10 @@ def connect_mqtt():
_mqtt_check_interval_ms = 30000 _mqtt_check_interval_ms = 30000
_last_mqtt_check = 0 _last_mqtt_check = 0
_discovery_phases = ()
_discovery_phase_idx = 0
_last_discovery_ms = 0
_DISCOVERY_INTERVAL_MS = 500
def check_mqtt(): def check_mqtt():
@@ -742,7 +795,7 @@ def check_mqtt():
client_ref.connect() client_ref.connect()
_mqtt_connected = True _mqtt_connected = True
info("MQTT reconnected!") info("MQTT reconnected!")
publish_discovery(client_ref) schedule_discovery()
_subscribe_all(client_ref) _subscribe_all(client_ref)
publish_online(client_ref) publish_online(client_ref)
publish_state(client_ref) publish_state(client_ref)
@@ -756,6 +809,199 @@ def check_mqtt():
return False return False
def _discovery_pause(client, count=5, delay_ms=25):
for _ in range(count):
client.check_msg()
utime.sleep_ms(delay_ms)
gc.collect()
def _publish_discovery_entity(client, topic, payload, log_msg):
client.publish(topic, ujson.dumps(payload), retain=True)
info(log_msg)
def _publish_gauge_discovery(client, dev_ref):
for i, g in enumerate(gauges):
gt = gauge_topics[i]
_publish_discovery_entity(
client,
gt["disc"],
{
"name": g["entity_name"],
"unique_id": f"{MQTT_CLIENT_ID}_g{i}",
"cmd_t": gt["set"],
"stat_t": gt["state"],
"avty_t": gt["status"],
"min": g["min"],
"max": g["max"],
"step": 1,
"unit_of_meas": g["unit"],
"icon": "mdi:gauge",
"dev": dev_ref,
},
f"Discovery: gauge {i} ({g['name']})",
)
_discovery_pause(client)
def _publish_speed_discovery(client, dev_ref):
for i, g in enumerate(gauges):
gt = gauge_topics[i]
_publish_discovery_entity(
client,
gt["speed_disc"],
{
"name": f"{g['name']} Speed",
"unique_id": f"{MQTT_CLIENT_ID}_g{i}_speed",
"cmd_t": gt["speed"],
"stat_t": gt["speed_state"],
"avty_t": gt["status"],
"min": 1,
"max": 50000,
"step": 1,
"mode": "box",
"unit_of_meas": "steps/s",
"icon": "mdi:speedometer",
"entity_category": "config",
"dev": dev_ref,
},
f"Discovery: gauge {i} speed",
)
_discovery_pause(client)
def _publish_acceleration_discovery(client, dev_ref):
for i, g in enumerate(gauges):
gt = gauge_topics[i]
_publish_discovery_entity(
client,
gt["acceleration_disc"],
{
"name": f"{g['name']} Acceleration",
"unique_id": f"{MQTT_CLIENT_ID}_g{i}_acceleration",
"cmd_t": gt["acceleration"],
"stat_t": gt["acceleration_state"],
"avty_t": gt["status"],
"min": 1,
"max": 100000,
"step": 1,
"mode": "box",
"unit_of_meas": "steps/s2",
"icon": "mdi:chart-bell-curve-cumulative",
"entity_category": "config",
"dev": dev_ref,
},
f"Discovery: gauge {i} acceleration",
)
_discovery_pause(client)
def _publish_indicator_led_discovery(client, dev_ref):
for i, g in enumerate(gauges):
gt = gauge_topics[i]
_publish_discovery_entity(
client,
gt["led_red_disc"],
{
"name": f"{g['name']} Dial Red LED",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_red",
"cmd_t": gt["led_red"],
"stat_t": gt["led_red_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": dev_ref,
"ret": True,
},
f"Discovery: gauge {i} red LED",
)
_publish_discovery_entity(
client,
gt["led_green_disc"],
{
"name": f"{g['name']} Dial Green LED",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_green",
"cmd_t": gt["led_green"],
"stat_t": gt["led_green_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": dev_ref,
"ret": True,
},
f"Discovery: gauge {i} green LED",
)
_discovery_pause(client)
def _publish_backlight_status_discovery(client, dev_ref):
for i, g in enumerate(gauges):
gt = gauge_topics[i]
_publish_discovery_entity(
client,
gt["led_bl_disc"],
{
"name": f"{g['name']} Backlight",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_bl",
"cmd_t": gt["led_bl"],
"stat_t": gt["led_bl_state"],
"schema": "json",
"supported_color_modes": ["rgb"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-strip",
"dev": dev_ref,
"ret": True,
},
f"Discovery: gauge {i} backlight",
)
_publish_discovery_entity(
client,
gt["status_red_disc"],
{
"name": f"{g['name']} Channel Status Red",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_red",
"cmd_t": gt["status_red"],
"stat_t": gt["status_red_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": dev_ref,
"ret": True,
},
f"Discovery: gauge {i} status red",
)
_publish_discovery_entity(
client,
gt["status_green_disc"],
{
"name": f"{g['name']} Channel Status Green",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_green",
"cmd_t": gt["status_green"],
"stat_t": gt["status_green_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": dev_ref,
"ret": True,
},
f"Discovery: gauge {i} status green",
)
_discovery_pause(client)
def publish_discovery(client): def publish_discovery(client):
"""Publish all HA MQTT discovery payloads for gauges and LEDs.""" """Publish all HA MQTT discovery payloads for gauges and LEDs."""
_dev_ref = _DEVICE _dev_ref = _DEVICE
@@ -769,139 +1015,54 @@ def publish_discovery(client):
f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_status_green/config", f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_status_green/config",
]: ]:
client.publish(old_t, b"", retain=True) client.publish(old_t, b"", retain=True)
_discovery_pause(client, count=2, delay_ms=15)
for i, g in enumerate(gauges): _publish_gauge_discovery(client, _dev_ref)
gt = gauge_topics[i] _publish_speed_discovery(client, _dev_ref)
_publish_acceleration_discovery(client, _dev_ref)
_publish_indicator_led_discovery(client, _dev_ref)
_publish_backlight_status_discovery(client, _dev_ref)
client.publish(
gt["disc"],
ujson.dumps(
{
"name": g["entity_name"],
"unique_id": f"{MQTT_CLIENT_ID}_g{i}",
"cmd_t": gt["set"],
"stat_t": gt["state"],
"avty_t": gt["status"],
"min": g["min"],
"max": g["max"],
"step": 1,
"unit_of_meas": g["unit"],
"icon": "mdi:gauge",
"dev": _dev_ref,
}
),
retain=True,
)
info(f"Discovery: gauge {i} ({g['name']})")
for _ in range(5): def schedule_discovery():
client.check_msg() global _discovery_phases, _discovery_phase_idx, _last_discovery_ms
utime.sleep_ms(10) _dev_ref = _DEVICE
_discovery_phases = (
lambda client: _clear_legacy_discovery(client),
lambda client: _publish_gauge_discovery(client, _dev_ref),
lambda client: _publish_speed_discovery(client, _dev_ref),
lambda client: _publish_acceleration_discovery(client, _dev_ref),
lambda client: _publish_indicator_led_discovery(client, _dev_ref),
lambda client: _publish_backlight_status_discovery(client, _dev_ref),
)
_discovery_phase_idx = 0
_last_discovery_ms = 0
client.publish(
gt["led_red_disc"],
ujson.dumps({
"name": f"{g['name']} Red LED",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_red",
"cmd_t": gt["led_red"],
"stat_t": gt["led_red_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}),
retain=True,
)
info(f"Discovery: gauge {i} red LED")
client.publish( def _clear_legacy_discovery(client):
gt["led_green_disc"], for i in range(num_gauges):
ujson.dumps({ for old_t in [
"name": f"{g['name']} Green LED", f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_red/config",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_green", f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_green/config",
"cmd_t": gt["led_green"], f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_status_red/config",
"stat_t": gt["led_green_state"], f"homeassistant/switch/{MQTT_CLIENT_ID}_g{i}_status_green/config",
"schema": "json", ]:
"supported_color_modes": ["onoff"], client.publish(old_t, b"", retain=True)
"effect": True, _discovery_pause(client, count=2, delay_ms=15)
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}),
retain=True,
)
info(f"Discovery: gauge {i} green LED")
for _ in range(5):
client.check_msg()
utime.sleep_ms(10)
client.publish( def service_discovery():
gt["led_bl_disc"], global _discovery_phase_idx, _last_discovery_ms
ujson.dumps( if client_ref is None or _discovery_phase_idx >= len(_discovery_phases):
{ return
"name": f"{g['name']} Backlight",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_bl",
"cmd_t": gt["led_bl"],
"stat_t": gt["led_bl_state"],
"schema": "json",
"supported_color_modes": ["rgb"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-strip",
"dev": _dev_ref,
"ret": True,
}
),
retain=True,
)
info(f"Discovery: gauge {i} backlight")
client.publish( now = utime.ticks_ms()
gt["status_red_disc"], if _last_discovery_ms and utime.ticks_diff(now, _last_discovery_ms) < _DISCOVERY_INTERVAL_MS:
ujson.dumps({ return
"name": f"{g['name']} Status Red",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_red",
"cmd_t": gt["status_red"],
"stat_t": gt["status_red_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}),
retain=True,
)
info(f"Discovery: gauge {i} status red")
client.publish( _discovery_phases[_discovery_phase_idx](client_ref)
gt["status_green_disc"], _discovery_phase_idx += 1
ujson.dumps({ _last_discovery_ms = utime.ticks_ms()
"name": f"{g['name']} Status Green",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_green",
"cmd_t": gt["status_green"],
"stat_t": gt["status_green_state"],
"schema": "json",
"supported_color_modes": ["onoff"],
"effect": True,
"effect_list": _EFFECT_LIST,
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}),
retain=True,
)
info(f"Discovery: gauge {i} status green")
for _ in range(5):
client.check_msg()
utime.sleep_ms(10)
def publish_online(client): def publish_online(client):
@@ -913,6 +1074,14 @@ def publish_state(client):
for i in range(num_gauges): for i in range(num_gauges):
gt = gauge_topics[i] gt = gauge_topics[i]
client.publish(gt["state"], str(gauge_targets[i])) client.publish(gt["state"], str(gauge_targets[i]))
client.publish(gt["speed_state"], str(gauge_speeds[i]), retain=True)
client.publish(gt["acceleration_state"], str(gauge_accelerations[i]), retain=True)
def apply_motion_defaults():
for i in range(num_gauges):
gauge_set_speed(i, gauge_speeds[i])
gauge_set_acceleration(i, gauge_accelerations[i])
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
@@ -928,11 +1097,10 @@ def main():
connect_wifi(WIFI_SSID, WIFI_PASSWORD) connect_wifi(WIFI_SSID, WIFI_PASSWORD)
connect_mqtt() connect_mqtt()
info("Publishing discovery...")
publish_discovery(client_ref)
_subscribe_all(client_ref) _subscribe_all(client_ref)
schedule_discovery()
apply_motion_defaults()
info("Draining initial retained messages...") info("Draining initial retained messages...")
for _ in range(50): for _ in range(50):
client_ref.check_msg() client_ref.check_msg()
@@ -960,6 +1128,7 @@ def main():
ota.mark_ok() ota.mark_ok()
except: except:
pass pass
gc.collect()
last_heartbeat = utime.ticks_ms() last_heartbeat = utime.ticks_ms()
@@ -968,14 +1137,17 @@ def main():
now = utime.ticks_ms() now = utime.ticks_ms()
check_wifi() check_wifi()
gc.collect()
if not check_mqtt(): if not check_mqtt():
utime.sleep_ms(1000) utime.sleep_ms(1000)
continue continue
client_ref.check_msg() client_ref.check_msg()
service_discovery()
arduino_recv() arduino_recv()
_flush_backlight_state() _flush_backlight_state()
gc.collect()
# Periodic re-home # Periodic re-home
for i in range(num_gauges): for i in range(num_gauges):
@@ -988,6 +1160,8 @@ def main():
info(f"Heartbeat: {gauge_targets}") info(f"Heartbeat: {gauge_targets}")
publish_state(client_ref) publish_state(client_ref)
last_heartbeat = now last_heartbeat = now
gc.collect()
info(f"Heap free: {gc.mem_free()} bytes")
utime.sleep_ms(10) utime.sleep_ms(10)
@@ -995,6 +1169,7 @@ def main():
import sys import sys
sys.print_exception(e) sys.print_exception(e)
log_err(f"Main loop error: {e} — continuing") log_err(f"Main loop error: {e} — continuing")
gc.collect()
utime.sleep_ms(100) utime.sleep_ms(100)