build issues

_posts/2023-08-06-HP-8560A-spectrum-analyzer-as-a-frequency-generator.md

@@ -10,7 +10,7 @@ I just bought a Hitachi VC-6025 oscilloscope from my Singapore trip for 85 SGD.
 
 I was inspired by [this blog post](http://www.toughdev.com/content/2021/05/vintage-oscilloscopes-to-the-test-hitachi-vc-6025-gw-instek-gos-6103-and-kenwood-cs-5275/) and decided to test the frequency response of the oscilloscope. I didn't have any sort of frequency generator though, so I used a HP 8560A spectrum analyzer to generate the frequency.
 
-![25 MHz signal from spectrum analyzer](/assets/img/2023-08-06-HP-8560A-spectrum-analyzer-as-a-frequency-generator/IMG20230801223458.jpg)
+![25 MHz signal from spectrum analyzer](/assets/img/2023-08-06-HP-8560A-spectrum/IMG20230801223458.jpg)
 
 Not shown in the picture, there is a N type to SMA, SMA to BNC cable which connects to the scope (yes, this is very suboptimal but I don't have many cables laying around - I still need to buy probes). The cable is connected to the tracking generator output of the SA.
 
@@ -18,9 +18,9 @@ As you can see on the screen, I'm operating the SA in zero-span mode. This also
 
 By changing the center frequency I can select the output frequency of the TG. As shown in the image, the oscilloscope is triggering on the 25 MHz signal nicely.
 
-![200 MHz](/assets/img/2023-08-06-HP-8560A-spectrum-analyzer-as-a-frequency-generator/IMG20230801222053.jpg)
+![200 MHz](/assets/img/2023-08-06-HP-8560A-spectrum/IMG20230801222053.jpg)
 
 At 200 MHz, the signal is heavily attenuated (as expected - the bandwidth of the Hitachi VC-6025 is 50 MHz in analog mode) and it is heavily unfocused, however it still triggers. Above 200 MHz it is so unfocused, it becomes unrecognizable.
 
 Bonus image: why CRTs are just great to look at
-![CRTs](/assets/img/2023-08-06-HP-8560A-spectrum-analyzer-as-a-frequency-generator/IMG20230801205713.jpg)
+![CRTs](/assets/img/2023-08-06-HP-8560A-spectrum/IMG20230801205713.jpg)