Context
The company relied on a legacy desktop platform to manage solar field operations. Field technicians and support teams needed a faster, mobile-first solution for operational tasks in real time.
My Role:
UX/UI Designer
Led end-to-end product design for the MVP.
+ Mobile
+ B2B SaaS
+ MVP
+ Operations
Mobile Control App
for Solar Field Operations
Challenge: Operational complexity was trapped
inside web software application
240
220
200
160
120
80
40
0
1
1
3
5
5
5
4
maintenance
s3-c15-r20
s3-c15-r20
s3-c15-r20
s3-c15-r20
s3-c15-r20
s3-c15-r20
s3-c15-r20
maintenance
maintenance
maintenance
maintenance
maintenance
maintenance
91.2
91.2
15:0:12:43
15:0:12:43
15:0:12:43
15:0:12:43
15:0:12:43
15:0:12:43
15:0:12:43
False
ok
ok
ok
ok
ok
ok
ok
91.1
90.0
False
90.0
90.0
90.0
90.0
90.0
90.0
False
False
False
90.0
90.0
False
89.9
90.0
False
number
name
Current elevation
Target elevation
Morning homing
Keep alive status
uptime
current state
Sprinklers
User record
Trends
Issues
!
Weather
Trackers
Agri
Trackers
001-MMC-B1000
Perf index
82
%
AC
70.4
kW
Wind
4.8
m/s
operational
safe mode
Wed 1 Jan 10:09:08
s
- Tracker page desktop version -
Users in the field often needed to perform urgent actions remotely,
but all tasks required desktop access or support intervention.
This created:
Slow response times
Heavy support load
Poor field usability
Friction in operational workflows
Field worker
→
Calls support
→
Support overload
→
Delay
Product Goals:
Enable field teams from mobile
Reduce support dependency
Create a modern foundation for
future products
Early Exploration: Exploring what mobile
operations should feel like
We explored multiple concepts for:
Dashboard summaries
Tracker lists
Alerts
Operational status views
Direct control flows
The challenge was balancing technical complexity with speed and clarity.
Maagan Michael
Roof 1, Israel
315kWp
8:30 AM, Thu 7 Mar
AC Power
233.8kW
Daily Energy
791kWh
Operational
Wind speed
Low
High
7.1m/s
Field Status
Trackers
Dashboard
Trackers
Issues
Performance
Weather
Today
Ac power
Potential
GHI
GHI
Safe
Maagan Michael trackers
Safe
all
followed
connected
connected
45
state
maintenance
Disconnected
safe
Connected
error
tracking
Trackers
Dashboard
Manual
R1.I8
current
Elevation
42º
-50º
Connected
Manual
R1.I9
current
Elevation
50º
Connected
Manual
R1.I10
current
Elevation
30º
Connected
Manual
R1.I11
current
Elevation
40º
Connected
-50º
Manual
R1.I12
current
Elevation
40º
Connected
-50º
13
mild
low
auxiliaries
system
trackers
inverters
high
input over voltage
device id 1
high
mon 4 mar 19:58:43
input over voltage
device id 1
high
mon 4 mar 19:58:43
ground fault
device id 1
high
mon 4 mar 19:58:43
dc disconnect
device id 1
high
mon 4 mar 19:58:43
Filter: High
Maagan Michael issues
Safe
Trackers
Dashboard
multisite
315kWp
Maagan Michael
791
kWh
Daily Energy
Trackers
inverters
Operational
Roof 1, Israel
12 issues
315kWp
Maagan Michael
791
kWh
Daily Energy
Trackers
inverters
Operational
Roof 1, Israel
12 issues
315kWp
Maagan Michael
791
kWh
Daily Energy
Trackers
inverters
Operational
Roof 1, Israel
12 issues
315kWp
Maagan Michael
791
kWh
Daily Energy
Trackers
inverters
Operational
Roof 1, Israel
12 issues
315kWp
Maagan Michael
791
kWh
Daily Energy
Trackers
inverters
Operational
Roof 1, Israel
12 issues
connected
state
Manual
Disconnected
safe
Connected
error
tracking
90%
10%
95%
connected
Maagan Michael trackers
Flagged
Manual
R1.I8
current
Elevation
42º
-50º
Connected
Manual
R1.I9
current
Elevation
50º
Connected
Manual
R1.I10
current
Elevation
30º
Connected
+ action
Manual
R1.I10
current
Elevation
30º
Connected
Trackers
Dashboard
Flag
Manual
R1.I11
current
Elevation
40º
Connected
-50º
Manual
R1.I12
current
Elevation
40º
Connected
-50º
Filter: tracking & connected
all
- Exploration & Iteration: Refining the Product Architecture V1 & MVP -
Key UX Decision: From technical control
to intuitive control
Instead of forcing users to manually enter tracker angles, we designed a visual control model that represented the tracker physically. Users could quickly adjust direction with confidence, even in field conditions.
Based on user interviews, we learned that operators wanted more than just data, they needed to feel the tracker’s position. Feedback indicated a strong interest in visualizing the specific angle and the shadow cast by the panels.
We shifted from abstract input fields to a tactile visual model.
This increased the user's sense of control and confidence, allowing them to adjust the hardware with an interface that mirrors the physical reality in the field.
- Tracker control screen -
Design Principles: Designing trust in industrial environments
We intentionally moved away from legacy enterprise interfaces and created a cleaner, calmer experience focused on:
Fast scanning
Operational confidence
Clear status visibility
Reduced cognitive load
Practical for operators
-final Dashboard-
Final Product: Final MVP Experience
The released MVP focused on the highest-value workflows:
Tracker overview
Operational status
Direct control actions
Mobile access in the field
Dashboard: Real-time production &
operational status.
Trackers: Visual status lists with real-time elevation graphs.
Multi-select: Seamlessly switching between Manual and Auto modes.
Success state:
Precise angle control with
real-time feedback.
Outcome: Impact & Launch
Delivered MVP with
external development partner
Enabled mobile-first workflows
Reduced dependency on desktop interactions
Created foundation for
future modernization
What I learned:
Great enterprise UX is often about simplification
MVP success depends on prioritization
Physical actions can become
intuitive digital interactions
Ownership matters more than title
- View more of my work -
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