Try the following as a standard (non-array) formula,

```
=--REPLACE(REPLACE(A2, 1, FIND("£", A2), ""), FIND("+", REPLACE(A2, 1, FIND("£", A2), "")), LEN(A2), "")
```

First the inside `REPLACE(A2, 1, FIND("£", A2), "")`

erases everything up to the first **£** symbol, then the same logic is applied to erase everything in that modified text from the first **+** to the end. The `--`

converts text-that-looks-like-a-number to an actual number.

The array formula you provided uses a more convoluted logic.

`FIND("£", A2) + 1`

finds the starting point of the first number after the first **£** symbol. e.g. The first £ is the 20^{th} character so it returns 21.
`MID(A2, FIND("£",A2)+1, 999)`

extracts the text following that first £ symbol. The text might look like it starts with a number but it is text masquerading as a number. e.g. 347+£30 S6
- In an array formula,
`ROW($1:$999)`

processes as a sequence of numbers from 1 to 999, incrementing by 1 for each cycle of calculation.
`MID(MID(A1, FIND("£", A1) + 1, 999), ROW($1:$999), 1) + 0)`

returns an array of text values, each one 1 character long and 1 position deeper into the text than the previous one. e.g. `3`

, `4`

, `7`

, `+`

, `£`

, etc.
`+0`

is used to try and convert each of these pieces of text to a number. The IFERROR function returns TRUE if a piece of text cannot be converted to a true number. The first one that cannot be turned into a true number is the 4^{th} e.g. `+`

- The
`IF`

catches the TRUE on the fourth position and returns 4 from the second `ROW($1:$999)`

. It has returned `999`

for positions 1, 2 and 3. e.g. 999, 999, 999, 4, 5, etc.
- The
`MIN`

catches the smallest of these numbers returned as an array. This is where the **4** comes from. e.g. `999, 999, 999, 4, 5, 999, ...`

You can see this yourself by changing all of the 999's to 9 then using the Evaluate Formula command. The reason changing to 9 is important is so that the returned arrays of number look like *1, 2, 3, 4, 5, 6, 7, 8, 9* which does not obfuscate the results quite a badly as *1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, ... 998, 999*.

_{This shows the formula evaluated several steps into the process. Note the 4 being returned to the MIN function.}