I think you misinterpreted the note on the networkx documentation. Though, I must admit it might be worded better.

The PageRank algorithm was designed for directed graphs but this
algorithm does not check if the input graph is directed and will
execute on undirected graphs by converting each oriented edge in the
directed graph to two edges.

What this tells is that, PageRank algorithm is designed for directed graphs, but it can be used for undirected graphs. To do so, it converts the undirected network to a directed network by replacing each edge with two directed edges (in and out).

Therefore, if you give it a directed network, it will calculate the PageRank according to the directed structure. So either start with an undirected network:

```
import networkx as nx
# Undirected Network
D = nx.Graph()
D.add_weighted_edges_from([('A', 'B', 0.5),('A', 'C', 1)])
# Default max number of iterations failed to converge for me
print nx.pagerank(D, max_iter=200)
# Outputs:
{'A': 0.48648648872844047, 'C': 0.32567567418103965, 'B': 0.18783783709051982}
```

or if you already have a directed network, convert it to an undirected one:

```
import networkx as nx
# Directed Network
D = nx.DiGraph()
D.add_weighted_edges_from([('A', 'B', 0.5), ('A', 'C', 1)])
# Convert to undirected
G = D.to_undirected()
# Default max number of iterations failed to converge for me
print nx.pagerank(G, max_iter=200)
# Outputs:
{'A': 0.48648648872844047, 'C': 0.32567567418103965, 'B': 0.18783783709051982}
```