HOUSE OF REPRESENTATIVES STAFF ANALYSIS
BILL #: CS/HB 737 Electric Vehicle Transportation Electrification Plan
SPONSOR(S): Tourism, Infrastructure & Energy Subcommittee, Borrero
TIED BILLS: IDEN./SIM. BILLS: SB 920
REFERENCE ACTION ANALYST STAFF DIRECTOR or
BUDGET/POLICY CHIEF
1) Tourism, Infrastructure & Energy Subcommittee 13 Y, 3 N, As CS Johnson Keating
2) State Administration & Technology
Appropriations Subcommittee
3) Commerce Committee
SUMMARY ANALYSIS
In Florida, the Public Service Commission (PSC) regulates the rates, terms, and conditions of retail electric
service provided by investor-owned electric utilities (IOUs), including electric vehicle (EV) charging
incorporated into an IOU’s rate base. A non-utility providing EV charging to the public is not considered the
retail sale of electricity and is not subject to PSC regulation. These non-utility EV charging providers pay the
commercial electricity rate of the local electric utility.
The bill requires the PSC to adopt rules for an EV transportation electrification plan to facilitate the deployment
of EV charging infrastructure in a competitively neutral manner. These rules must be proposed by January 1,
2023, and adopted by January 1, 2024. The PSC’s rules must:
 Promote investment in publicly available EV charging stations in a competitively neutral manner
prioritizing and encouraging private investment in and private ownership and operation of EV
charging infrastructure.
 Establish policies that stimulate innovation, competition, private investment, and customer choice in
EV charging infrastructure.
 Establish mechanisms which support the efficient and cost-effective use of the electric grid in a
manner that supports EV charging infrastructure.
 Establish incentives that support private investment in EV charging equipment.
 Establish policies on a prospective basis, prohibiting IOUs from using rate base investment in the
ownership and operation of new EV charging stations and limiting cost recovery to distribution level
infrastructure on the utility side of the meter.
 Stimulate fair and reasonable electricity pricing through IOUs’ tariffs which promote the widespread
offering of EV charging.
The bill authorizes an entity that provides EV charging stations to the public to intervene and participate in any
PSC proceeding involving rates, terms, or conditions of service for EV charging to be offered to the public.
The bill does not prohibit an IOU from providing EV charging stations directly to the public through a separate,
unregulated entity on the same terms and conditions as any other provider of EV charging stations.
The bill does not appear to impact state or local government revenues or expenditures.
The bill has an effective date of July 1, 2022.
This docum ent does not reflect the intent or official position of the bill sponsor or House of Representatives .
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 FULL ANALYSIS
I. SUBSTANTIVE ANALYSIS
A. EFFECT OF PROPOSED CHANGES:
Current Situation
Electric Vehicles
Electric vehicles (EVs)1 offer higher fuel efficiency and improved air quality compared to vehicles with
internal combustion engines.2 Increased interest in EVs is driven by higher gas prices and greenhouse
gas emission concerns.3 However, limited EV range, limited charging infrastructure, and range anxiety4
have deterred many drivers from considering EVs.5 As advancements in EV technology continue, EV
manufacturing increases, and EV prices become more accessible, representatives in both government
and the private sector suggest that successful adoption of EV use is heavily dependent on the
accessibility of charging stations.6
The U.S. Department of Energy’s Alternative Fuels Data Center uses the term “electric-drive vehicles”
to collectively refer to the following:
 Hybrid electric vehicles powered by an internal combustion engine that runs on conventional or
alternative fuel and an electric motor using energy stored in a battery. The battery is charged
through regenerative braking and the internal combustion engine, not by plugging in to charge.
 Plug-in hybrid electric vehicles powered by an internal combustion engine and an electric motor
using energy stored in a battery. These vehicles can operate in all-electric mode through a
larger battery, which can be plugged in to an electric power source to charge.
 All-electric vehicles use a battery to store the electric energy that is charged by plugging the
vehicle into charging equipment. EVs always operate in all-electric mode and have typical
driving ranges from 150 to 300 miles.7
EV Charging Equipment
EVs are becoming increasingly popular in the United States, prompting a focus on the installation of
electric vehicle charging infrastructure. Electric vehicle charging stations have EV supply equipment
(EVSE) capable of charging an EV’s battery.8 Charging station site hosts may provide such stations
free of charge or collect revenue for electric vehicle charging through subscription, pay-per-charge, or
pay-for-parking systems.9
EV charging equipment is classified based on the rate of charge. 10 Charging times vary, depending on
the depletion level of the battery, how much energy the battery holds, the type of battery, and the type
of supply equipment.11 Charging times can range from less than 20 minutes to more than 20 hours.12
Potential driving distance ranges from:
1
Section 320.01(36), F.S., defines the term “electric vehicle” to mean a motor vehicle that is powered by an electric motor th at draws
current from rechargeable storage batteries, fuel cells, or other sources of electrical current.
2 Federal Highway Administration (FHWA), FHWA NHTS Brief, Electric Vehicle Feasib ility, July 2016, p. 1, available at
http://nhts.ornl.gov/briefs/EVFeasibility20160701.pdf (last visited Feb. 4, 2022).
3 Id.
4
Range anxiety is the feeling an EV driver has when the battery charge i s low and the usual sources of electricity are unavailable,
striking a fear of being stranded. J.D. Power, What is Range Anxiety with Electric Vehicles? https://www.jdpower.com/cars/shopping-
guides/what-is-range-anxiety-with-electric-vehicles (last visited Feb. 4, 2022).
5 FHWA, supra note 2, at 1-2.
6 Id.
7 U.S. Dept. Energy, Alternative Fuels Data Center, Hyb rid and Plug-In Electric Vehicles, https://afdc.energy.gov/vehicles/electric.html
(last visited Feb. 8, 2022).
8 See U.S. Dept. Energy, Plug-In Electric Vehicle Handb ook for Pub lic Charging Station Hosts (April 2012), availab le at
https://www.afdc.energy.gov/pdfs/51227.pdf (last visited Feb.11, 2022).
9 Id.at p. 9.
10 U.S. Dept. Energy, AFDC, Developing Infrastructure to Charge Plug-In Electric Vehicles,
https://afdc.energy.gov/fuels/electricity_infrastructure.html (last visited Feb. 11, 2022).
11 Id.
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  Two to five miles of range per one hour of charging for Level 1 supply equipment;
 Ten to twenty miles per one hour of charging for Level 2 supply equipment; and
 Sixty to eighty miles per twenty minutes of charging for direct-charge fast-charge (DCFC) supply
equipment.13
For most drivers, charging occurs overnight at home, using Level 1 or AC Level 2 charging
equipment.14
Level 1 Charging
Level 1, typically at-home charging, through a power cord which comes as standard equipment on new
EVs, only requires a standard 120-volt outlet, so no additional equipment is required.15 This can add
about 40 miles of range in an eight hour overnight charge for a mid-size EV.16 Typically, Level 1
charging is used when only a 120 volt-outlet is available, but can easily be enough to supply a typical
driver’s needs.17 As of 2020, fewer than 5 percent of public EV charging ports in the United States were
Level 1.18
Level 2 Charging
Level 2, typically home and public charging, commonly requires a charging unit on a 240-volt circuit,
such as one used for home appliances like a clothes dryer. 19The charging rate depends on the rate at
which a vehicle can accept a charge and the maximum current available. 20 This method may require
purchasing an at-home charging unit and modifications to a home electric system, but charges from
two to eight times faster than a Level 1.21 These chargers are most common at public charging places
like offices, grocery stores, and parking garages.22 As of January 2022, nearly 80 percent of all public
EV charging ports in the United States were Level 2.23
Direct Charge Fast Chargers (DCFC)
DCFC, typically public charging, allows for rapid charging along heavy traffic corridors. 24 DCFCs are
best used for longer travel distances, vehicles heavily used throughout the day like taxis, and for drivers
with limited access to at-home charging, such as multi-unit renters.25 As of January 2020, over 18
percent of all public EV charging ports in the United States were DCFC.26 There are three types of
DCFC systems, depending on the type of charge port on the vehicle:
 SAE Combined Charging System, allowing a driver to use the same charge port when charging
with Level 1, Level 2, or DCFC.
 The CHAdeMO connector, which is the most common.
12 Id.
13
Id.
14 U.S. Dept. Energy, AFDC, Charging Plug-In Electric Vehicles at Home, https://afdc.energy.gov/fuels/electricity_charging_home.html
(last visited Jan 13, 2022).
15 AFDC, Developing Infrastructure to Charge Plug-In Electric Vehicles, supra note. 10.
16 Id.
17
Id.
18 Id.
19 Id.
20 Union of Concerned Scientists, Electric Vehicle Charging, Types, Time, Cost and Savings (March 2018) available at
https://www.ucsusa.org/resources/electric-vehicle-charging-types-time-cost-and-savings (last visited Feb. 11, 2022).
21 Id.
22 Id.
23 See U.S. Dept. of Energy, Alternative Fueling Station Counts b y State, https://www.afdc.energy.gov/fuels/stations_counts.html (last
visited Feb.11, 2022).
24 AFDC, Developing Infrastructure to Charge Plug-In Electric Vehicles, supra n. 10.
25 Union of Concerned Scientists, Electric Vehicle Charging, Types, Time, Cost and Savings, https://www.ucsusa.org/resources/electric-
vehicle-charging-types-time-cost-and-savings (last visited Feb. 11, 2022).
26 See U.S. Dept, Energy, Alternative Fueling Station Counts b y State, supra n. 24.
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  Tesla, which is a unique, proprietary connector that works for all Tesla charging levels, including
their fast charging option, called Supercharge. Tesla does not have a CHAdeMO port, but Tesla
sells an adapter.27
EV Charging in Florida
In Florida, investor-owned electric utilities (IOUs) serve exclusive territories and the Public Service
Commission (PSC) has broad regulatory authority over rate setting, bulk power grid planning, safety
inspection, and service reliability. IOU rates are set based upon the cost of service. However, the PSC
does not regulate the rates or service quality for municipal electric utilities or rural electric
cooperatives.28
Under Florida law, the third-party sale of electricity to a retail customer is not permitted.29 In 2012, the
Legislature created an exemption for EV charging by declaring that the provision of EV charging to the
public by a non-utility is not considered a retail sale of electricity. Therefore, the rates, terms, and
conditions of EV charging by a non-utility are not subject to PSC regulation.30
In 2020,31 the Legislature required the Department of Transportation (DOT) to coordinate, develop and
recommend a Master Plan for the development of EV charging infrastructure along the State Highway
System. DOT, in consultation with the Florida Department of Environmental Protection, the PSC, and
other state agencies, developed the EV Master Plan (EVMP) with extensive public engagement. 32 The
stated goals of the EVMP were to:
 Support both short-range and long-range electric vehicle travel;
 Encourage the expansion of electric vehicle use in the state; and
 Adequately serve evacuation routes in the state.
In July 2021, the EVMP was delivered, providing a comprehensive course of action to efficiently and
effectively provide for EV charging infrastructure.33 The EVMP discusses:
 Benefits of electrified mobility;
 Barriers to adoption and industry trends;
 Installation considerations;
 Fleet considerations and future advancements;
 Utility regulatory considerations;34
 Strategies to develop charging supply;
 EV market adoption;
 Impacts to transportation funding;
 Resiliency and emergency evacuations;
 Identification of potential new EVSE locations;
 EV infrastructure on the state highway system; and
 Recommendations.
EV Charging Infrastructure Provided by IOUs
The PSC has approved EV charging programs for three of the four IOUs under its jurisdiction.35
Tampa Electric Company
27 AFDC, Developing Infrastructure to Charge Plug-In Electric Vehicles, supra n. 12.
28 Id at 15.
29 Id at 16.
30 Ch. 2012-119, Laws of Fla.; S. 366.94(1), F.S.
31 Ch. 2020-21, Laws of Fla.
32 Id.
33 Id.
34 Pages 15-22 of the EVMP discuss utility regulatory considerations.
35 Public Service Commission (PSC) Agency Analysis of 2022 House Bill 737, p.1. (Dec.15, 2021).
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 On April 1, 2021, the PSC approved Tampa Electric Company’s (TECO) EV charging pilot program.
Under its pilot program, TECO will spend up to $2 million to purchase, install, own, and maintain 200
EV charging stations. TECO will pay up to $5,000 per Level 2 charger towards the cost of installation at
workplaces, public/retail establishments, and multi-unit dwellings, and the full cost of installation for
income-qualified sites and government locations. TECO also plans to install four DCFCs. TECO
anticipated it would take approximately 12 months to complete deployment of the EV charging stations,
after which the pilot program will run for four years. The PSC authorized TECO to begin recovery of the
cost of its pilot program in its rate base.36
Florida Power & Light
In 2019, Florida Power & Light Company (FPL)37 began a three-year pilot program, known as
EVolution, which targeted the installation of 1,000 EV charging ports. The program’s primary objective
was to gather information prior to mass EV adoption to better plan for and design FPL’s EV charging
investments. In 2020, the PSC approved a new FPL tariff with specific EV charging rates for both utility-
owned and non-utility owned charging stations. The PSC required FPL to submit annual reports.38
During its 2021 rate case, FPL reached a settlement agreement with other parties to the rate case. The
settlement expanded FPL’s current EV charging pilot program to include the following: a public fast
charging program, a residential EV charging services pilot, a commercial EV charging services pilot,
new technologies and software, and education and awareness. On October 26, 2021, the PSC
approved FPL’s expanded EV pilot programs as a component of the rate case settlement agreement.
The total investment is forecast to be $175 million over the four-year period of 2022-2025. Under the
terms of the settlement agreement, FPL may include the costs associated with the EV programs in rate
base and recover the costs through base rates.39
Duke Energy Florida
In 2017, as part of a settlement agreement in Duke Energy Florida’s (DEF) rate case, the PSC
approved a five-year EV charging pilot program authorizing DEF to invest $8 million to install and own a
minimum of 530 charging ports.40
In 2021, as part of a subsequent DEF rate case, the PSC approved a new settlement agreement that
created a permanent EV charging station program. DEF forecasted a cost of $62.9 million over the
four-year period of 2022-2025. Under the permanent EV charging program, DEF plans to implement a
residential EV time-of use credit program for off-peak charging, a rebate program for commercial and
industrial customer charging stations, and a DEF-owned DCFC program. The DCFC program will allow
DEF to install an additional 100 utility-owned DCFC stations and includes a new tariff for a Fast Charge
Fee that will be collected from EV drivers using DEF-owned DCFC stations. Reasonable costs of the
programs will be included in DEF’s rate base and recovered through its base rates.41
Public EV Charging Provided by Non-Utilities
As previously stated, the provision of EV charging to the public by