diff --git a/First-steps-into-APRS-over-LoRa.md b/First-steps-into-APRS-over-LoRa.md
index 155dc3f..f552a8f 100644
--- a/First-steps-into-APRS-over-LoRa.md
+++ b/First-steps-into-APRS-over-LoRa.md
@@ -21,7 +21,7 @@ LoRa modules support various SF (spreading factors) and various bandwidths, tabl
 - 868/915MHz: ranging from 293 bps (SF12, -137 dbm) up to 9375 bps (SF6, -118 dBm) for legal 868 Mhz 125kHz channel
 - 2400Mhz: up to 2 Mbps, up to 27 dBm
 
-![](https://github.com/sh123/esp32_loraprs/blob/master/images/bandwidth_vs_sf.jpg)
+![](https://github.com/sh123/esp32_loraprs/blob/master/extras/images/bandwidth_vs_sf.jpg)
 
 # ESP32 KISS bluetooth modem
 Test modem was constructed based on ESP32-WROOM dev board and custom made Ra-02 SX1278 shield. 3.3V/GND was provided from the ESP32. For data pinouts next connectivity was used from LoRa to ESP32, SS/RST/DIO0 could be overriden in software:
@@ -32,7 +32,7 @@ Test modem was constructed based on ESP32-WROOM dev board and custom made Ra-02
 - MISO: GPIO_19/VSPI_MISO
 - SCK: GPIO_18/VSPI_SCK
 
-![](https://github.com/sh123/esp32_loraprs/blob/master/images/pinouts.png)
+![](https://github.com/sh123/esp32_loraprs/blob/master/extras/images/pinouts.png)
 
 # Software setup for client terminal modem or iGate
 Open esp32_loraprs.ino and modify config based on instructions from README.md