Naming & Ordering Guide for
The Mini 1U Power System
Issue Date: January, 2006
Issue 1.7
Supersedes Issue 1.5 12/25/05
Page - 2 - of 19
Mini Power System Description ..............................................................................................- 3 -
Mini Power System Numbering Convention..........................................................................- 3 -
AC Input Types.........................................................................................................................- 4 -
Shelf Family Letter Codes........................................................................................................- 4 -
Mini System Shelf and Distribution Concepts.......................................................................- 5 -
DC Distribution Circuits..........................................................................................................- 5 -
H Series Rectifiers Numbering Convention ...........................................................................- 6 -
H Series Rectifiers Basic Models.............................................................................................- 7 -
Mini System Alarm and Communication Options ................................................................- 8 -
NIC (Network Interface Card)................................................................................................- 8 -
NIC Naming Convention..........................................................................................................- 8 -
NIC Basic Models......................................................................................................................- 8 -
Sample Operating Parameters.............................................................................................- 9 -
H-TRIO-02 (Thermal Relay Input/Output).........................................................................- 13 -
HC Display...............................................................................................................................- 13 -
Line Cord Naming Convention..............................................................................................- 14 -
Line Cord Examples...............................................................................................................- 14 -
LI Type..................................................................................................................................- 15 -
LU Type................................................................................................................................- 15 -
NEMA Plugs............................................................................................................................- 15 -
Non-Locking Plugs...............................................................................................................- 15 -
Locking Plugs .......................................................................................................................- 15 -
Alarm Cables...........................................................................................................................- 16 -
Temperature Probes...............................................................................................................- 16 -
Circuit Breaker Naming Convention....................................................................................- 17 -
Fuse Naming Convention.......................................................................................................- 18 -
Fuse Examples.........................................................................................................................- 18 -
How to Order............................................................................................................................... 19
How to Reach Valere for Assistance......................................................................................... 19
Page - 3 - of 19
Mini Power System Description
The Mini Power System consists of several configurable items, plug in modules, and associated
accessories that are designed to seamlessly work together. These items include,
H Series 1U Compact Shelves
H Series Rectifiers
NIC Series Controllers
H-TRIO-02
HC Display
Line Cords
Alarm Cables
Temperature Probes
Fuses
Each of these items has a unique and structured part numbering scheme that is described in
the proceeding sections.
Mini Power System Numbering Convention
System Type (H=Mini Power System)
Shelf Family (See Available System Matrix)
DC Distribution (See Available DC Circuits)
AC Feed Type (See AC Input Type Table)
System Voltage (A=48V, B=24V, C=12V)
System Polarity (U=Universal, N=Negative, P=Positive)
LVD (L=LVD w/Shunt, S=Shunt only, N=None
B=Batt LVD & Shunt)
Product Marking (VC=CLEI coded,
VV=Standard Valere Markings)
H M 1 I-A U N-VV
There are currently several mini power system shelf configurations with different functionality.
The family is constantly being updated and extended as more applications demand. Not every
combination of options is available. For example, only certain DC distributions circuits are
available for certain system configurations. More detail on this is included in the following
sections.
Page - 4 - of 19
AC Input Types
Several types of AC input connections are available on the Mini System. The following table
provides details of the AC connection style and AC input compatibility of the various letter
codes.
Table 1 – AC Input Types
Shelf Family Letter Codes
Each shelf is identified by a unique letter code that defines a set of physical attributes as
shown in the table below. A DC output circuit number is used to designate the DC output
connection options that exist for that shelf letter code.
Shelf
Family Width
(inches) Shelf
Height
(U)
Wire
Direction DC
Distribution
Width (inches)
Controller
Type Number of
Rectifiers DC
Output
Circuits
AC
Input
Types
M* 19 1 Rear -- NIC 4 1,23 I,B,D,S
K** 19 1 Rear 5.25 NIC,TRIO,HC 3 31,25 I,D,S
Table 2 – Shelf Family Letter Codes
*Note: Uses opto-isolated for alarms
** Note: Uses form C relay contacts for alarms
AC Type
Letter Code Termination
Style Input Type Input Voltage
S Terminal Block or Strip 1Φ Single 120/208/240V
D Terminal Block or Strip 1Φ Dual 120/208/240V
I IEC 15A Receptacle 1Φ Individual 120/208/240V
B Terminal Block 1Φ Individual 120/208/240V
Page - 5 - of 19
Mini System Shelf and Distribution Concepts
The Mini System is available in two basic heights, 1U (1.75”) and 2U (3.5”). 1U systems are
designed to work with TRIO, NIC, and HC system controllers and 2U (Naming & Ordering
Guide for the Mini 2U Power System) systems are designed to work with BC series controllers
used in the Compact and Integrated Plants. The following table shows the existing Mini 1U
System shelves and their attributes.
Table 3 – Mini Shelf Distribution Concepts
DC Distribution Circuits
The circuit diagrams below describe the available DC output Distributions configurations. CB
positions are rated up to 60 amps each. Circuit Diagrams show available positions for breakers
and GMT style fuse outputs. Actual devices are ordered separately. LVD is always optional –
the circuit diagram shows position in the circuit if LVD or Shunt only is specified.
Circuit 1 & Circuit 23
• Used in HM shelf
• Bulk outputs one on each
side of the system
• Circuit 1 has co-planar
output and return pads for
ease of cabling, ¼ inch
holes and 5/8” spacing
• Circuit 23 has staggered
output and return pads for
bussed connections, M6
holes and 5/8” spacing
1U Mini Systems 1U Mini System
HK – 19inch up to 3 rectifiers
Single distribution slot
HM – 19inch up to 4 rectifiers
Bulk outputs only
Page - 6 - of 19
Circuit 25
• Used in HK shelf
• Circuit 25 has, ¼ inch
holes and 5/8” spacing
output and return pads for
ease of cabling
• Optional LVD and Shunt
Circuit 31
• Used in HK shelf
• 14 GMT positions - screw
down terminal block
• One ¼-20 single stud bulk
output / battery input
Circuit 32
• Used in HK shelf
• 7 GMT positions – screw
down terminal block
• Circuit 32 has two #8-32
studs with 5/8 centers
• Optional LVD and Shunt
through 1 circuit breaker
H Series Rectifiers Numbering Convention
Rectifier Series (H=Horizontal Airflow, 1U)
Rated Output Power (watts)
Nominal Voltage (A=48V, B=24V, C=12V)
Input Voltage (1=208/240 S/T, 380Y, 2=480Y,
3=380/480 T)
Product Marking (VC=CLEI Coded,
VV=Standard Valere Markings)
H 1250 A 1 – VC
Page - 7 - of 19
H Series Rectifiers Basic Models
Model Voltage Current AC Input Temperature *
H0500A 48V 10amps 90-264 VAC -40 to +70C
H0750A 48V 15amps 90-264 VAC -40 to +70C
H1000A 48V 20amps 90-264 VAC -40 to +70C
H1250A 48V 25 amps 90-264 VAC -40 to +70C
H1500A 48V 30amps 180-264 VAC -40 to +70C
H2000A 48V 40 amps 180-264 VAC -40 to +70C
H2500A 48V 50amps 180-264 VAC -40 to +70C
H1250B 24V 50 amps 90-264 VAC -40 to +70C
H1250C 12V 100 amps 90-264 VAC -40 to +70C
Table 4 – H Series Rectifiers Basic Models
Note: Product marking characters not shown on above table.
* FULL POWER UP to +50C; DERATE ABOVE 50C BY 2% PER DEG C *
Page - 8 - of 19
Mini System Alarm and Communication Options
Two system alarm and communication options are available on the Mini System. See Table 2
for shelf compatibility with alarm & communication options. The TRIO card is mounted on the
rear of the shelf and provides temperature probe, relay alarm contact functions. The NIC
provides communication ports and system operating parameter adjustments. More detail on
these options and their interactions is provided in the following sections.
NIC (Network Interface Card)
The NIC provides various communication connections allowing power system access through
a network, or on site communication via appropriate cable connections to a notebook/local
computer. This connectivity provides the capability of logging onto the system to change
various parameters and/or relay mappings if TRIO is installed. All parameters are field
adjustable; including TRIO based form C alarm contacts see Table 6. For communication port
types see Table 5.
NIC Naming Convention
Controller Series (NIC=fits in Mini Plant)
Communications (see table)
Nominal Voltage (A=48V, B=24V, C=12V)
Controller Profile (01=Valere Standard,
All others = customer specific)
Language (10= English)
Product Marking (VC=CLEI Coded,
VV=Standard Valere)
NIC 1000 – A 01 – 10 VC
NIC Basic Models
Table 5 – NIC Basic Models
Model Description
NIC1000 10/100-Front Port, RS232-Rear Port
NIC1001 RS232-Front Port, 10/100-Rear Port
Page - 9 - of 19
Sample Operating Parameters
System Parameters Description 12 Volt
Nominal 24 Volt
Nominal 48 Volt
Nominal
Float Voltage
The voltage to which the rectifiers will
regulate the plant during float mode 13.5 Vdc 27 Vdc 54 Vdc
Batt CL Enabled* Enables the battery current limit feature Disabled Disabled Disabled
Batt CL Set point*
The controller will limit the current to the
batteries at this set point 40 A 40 A 40 A
Rect CL Enabled Enables the system current limit feature Disabled Disabled Disabled
Rect CL Set point
The controller will limit the current of the
rectifiers to the value 220 A 220 A 220 A
HVSD Set point
The controller will shut down the
rectifiers if the plant voltage exceeds
this set point. 14.5 Vdc 29 Vdc 58 Vdc
HV Alarm Set point
The controller will issue a High Voltage
Alarm (Major) if the plant voltage
exceeds this set point 14.25 Vdc 28.5 Vdc 57 Vdc
BD Alarm
The controller will issue a Battery-On-
Discharge alarm if the plant voltage falls
below this set point 12 Vdc 24 Vdc 48 Vdc
Redundancy Alarm
A minor alarm is set if the number of
installed rectifiers will not support N+1
redundancy required by the load. Disabled Disabled Disabled
I Share Alarm
A minor alarm is set if the output current
of any rectifier exceeds current sharing
tolerances Disabled Disabled Disabled
Power Dev Comm
Fail / Dist Dev
Comm Fail Alarm
A minor alarm, and (Power Dev Comm
Fail, or Dist Dev Comm Fail) is set if any
power module, or distribution module
either stops communicating, or is
removed from the shelf / panel. Comm
Alrm need to be enabled for minor alarm Disabled Disabled Disabled
Manual Boost Mode
Enables or Disables the manual boost
mode feature Disabled Disabled Disabled
Boost Voltage
The voltage at which the equalize /
boost charge will begin 14 Vdc 28 Vdc 56 Vdc
Boost State
Starts manual boost when manual boost
mode is enabled, or stops manual,
periodic, Auto Cur, or Opp Mode boost
when active. Stop Stop Stop
Boost Time
Duration of time the equalize/boost
charge is active 6 hours 6 hours 6 hours
Thermal Comp
Status Enables thermal compensation feature Disabled Disabled Disabled
Hi Temp Thermal
Comp Start Temp
(Start Hi T)
The controller begins to reduce the float
voltage when the highest measured
battery temperature reaches this value 35 °C 35 °C 35 °C
Page - 10 - of 19
System Parameters Description 12 Volt
Nominal 24 Volt
Nominal 48 Volt
Nominal
Hi Temp Thermal
Slope (Slope Hi)
If battery temperature is above the start
High temperature (Start Hi T), the
controller will linearly reduce the plant
voltage by this slope 18 mV/°C 36 mV/°C 72 mV/°C
Hi Temp Thermal
Comp Stop Voltage
(Stop Hi V)
The minimum voltage to which the
controller will reduce plant voltage for
thermal compensation 12.62 Vdc 25.25 Vdc 50.5 Vdc
Lo Temp Thermal
Comp Start Temp
(Start Lo T)
The controller begins to increase the
float voltage when the lowest measured
battery temperature reaches this value 15 °C 15 °C 15 °C
Lo Temp Thermal
Slope. (Slope Lo)
If battery temperature is below the start
Low temperature (Start Lo T), the
controller will linearly increase the plant
voltage by this slope 18 mV/°C 36 mV/°C 72 mV/°C
Lo Temp Thermal
Comp Stop Voltage
(Stop Lo V)
The maximum voltage to which the
controller will increase plant voltage for
thermal compensation 13.75 Vdc 27.5 Vdc 55 Vdc
Thermal Runaway
Clamp Temperature
(Runaway T)
The temperature at which the controller
will reduce the Float Voltage to
Runaway Clamp Voltage, and issue
thermal runaway alarm 60°C 60°C 60°C
Thermal Runaway
Clamp Voltage
(Runaway V)
The Float Voltage to which the controller
will reduce for temperature above
Runaway Clamp temperature 12 Vdc 24 Vdc 48 Vdc
Thermal Sense
Selects temperature sensing device to
use for battery temperature
compensation; Internal sensor or
External temp probes. Internal Internal Internal
Temp. Units
Selects the units the temperature
readings are given in. Either Celsius or
Fahrenheit Celsius Celsius Celsius
LV Alarm
The controller will issue a Low Voltage
Alarm if the plant voltage falls below this
set point 11 Vdc 22 Vdc 44 Vdc
Battery Disconnect
Voltage **
Battery Disconnect contactor in the
battery panel will open if the plant
voltage falls below this set point 10.5 Vdc 21 Vdc 42 Vdc
Battery Disconnect
Delay Time**
The amount of time delayed after
reaching the battery disconnect voltage
set point, before opening the battery
disconnect contactor 5 sec 5 sec 5 sec
Page - 11 - of 19
System Parameters Description 12 Volt
Nominal 24 Volt
Nominal 48 Volt
Nominal
Battery Reconnect
Voltage**
The Battery Disconnect contactor in the
battery panel will reconnect if the plant
voltage exceeds this set point 12.5 Vdc 25 Vdc 50 Vdc
Battery Reconnect
Delay Time**
The amount of time delayed after
reaching the battery reconnect voltage
set point, before closing the battery
disconnect contactor 20 Sec 20 Sec 20 Sec
Load 1 Disconnect
Voltage **
The Load 1 Disconnect contactor in a
distribution panel will open if the plant
voltage falls below this set point 10.75 Vdc 21.5 Vdc 43 Vdc
Load 1 Disconnect
Delay Time**
The amount of time delayed after
reaching the load 1 disconnect voltage
set point, before opening the load 1
disconnect contactor 5 sec 5 sec 5 sec
Load 1 Reconnect
Voltage**
The Load 1 Disconnect contactor in the
distribution panel will reconnect if the
plant voltage exceeds this set point 12.5 Vdc 25 Vdc 50 Vdc
Load 1 Reconnect
Delay Time**
The amount of time delayed after
reaching the load 1 reconnect voltage
set point, before closing the load 1
disconnect contactor 5 Sec 5 Sec 5 Sec
Load 2 Disconnect
Voltage **
The Load 2 Disconnect contactor in a
distribution panel will open if the plant
voltage falls below this set point 11 Vdc 22 Vdc 44 Vdc
Load 2 Disconnect
Delay Time**
The amount of time delayed after
reaching the load 2 disconnect voltage
set point, before opening the load 2
disconnect contactor 5 sec 5 sec 5 sec
Load 2 Reconnect
Voltage**
The Load 2 Disconnect contactor in the
distribution panel will reconnect if the
plant voltage exceeds this set point 12.75 Vdc 25.5 Vdc 51 Vdc
Load 2 Reconnect
Delay Time**
The amount of time delayed after
reaching the load 2 reconnect voltage
set point, before closing the load 2
disconnect contactor 5 Sec 5 Sec 5 Sec
Load 3 Disconnect
Voltage **
The Load 3 Disconnect contactor in a
distribution panel will open if the plant
voltage falls below this set point 11.25 Vdc 22.5 Vdc 45 Vdc
Load 3 Disconnect
Delay Time**
The amount of time delayed after
reaching the load 3 disconnect voltage
set point, before opening the load 3
disconnect contactor 5 sec 5 sec 5 sec
Load 3 Reconnect
Voltage**
The Load 3 Disconnect contactor in the
distribution panel will reconnect if the
plant voltage exceeds this set point 13 Vdc 26 Vdc 52 Vdc
Page - 12 - of 19
System Parameters Description 12 Volt
Nominal 24 Volt
Nominal 48 Volt
Nominal
Load 3 Reconnect
Delay Time**
The amount of time delayed after
reaching the load 3 reconnect voltage
set point, before closing the load 3
disconnect contactor 5 Sec 5 Sec 5 Sec
BDT Status
Enables or Disables the battery
discharge test feature Disabled Disabled Disabled
BD Time (Duration)
Sets the length of time that the battery
discharge test will run. 60 min 60 min 60 min
BDT Alarm
(Alarm V)
Sets the voltage at which an alarm will
be generated if the battery voltage falls
below it during the Battery Discharge
Test. This is a user adjustable value 11.25 V 22.5 V 45 V
BDT Abort* (Abort V)
The voltage at which the battery
discharge test will abort at when the
system voltage drop below this point.
This is a user settable value that should
be at least 2V below BDT Alarm (Alarm
V). 10.75V 21.5V 43 V
Enabling T Comp BDT will take thermal
compensation effects into account
during Battery Discharge Test. Disabling
T Comp BDT will disable Thermal
Compensation effects during BDT.
T Comp BDT
Both Thermal Compensation, and T
Comp BDT have to be Enabled for
thermal comp. effects to take place
during BDT. Disabled Disabled Disabled
BDT State
Starts or stops the battery discharge test
when BDT Status is enabled. Stop Stop Stop
When internal temperature exceeds this
set point, Temp Alarm
Temp Alarm Thresh.
(Int Max) ( Minor) is issued 90°C 90°C 90°C
Temp Alarm Thresh.
(Int Min)
When internal temperature falls below
this set point, Temp Alarm ( Minor) is
removed 85°C 85°C 85°C
Temp Alarm Thresh.
(Ext Max)
When external temperature exceeds this
set point, Temp Alarm ( Minor) is issued 90°C 90°C 90°C
Temp Alarm Thresh.
(Ext Min)
When external temperature falls below
this set point, Temp Alarm ( Minor) is
removed 85°C 85°C 85°C
HV Restart Enabled
When enabled, all the rectifiers in the
plant will make up to 3 restart attempts
before shutting down permanently Enabled Enabled Enabled
Page - 13 - of 19
System Parameters Description 12 Volt
Nominal 24 Volt
Nominal 48 Volt
Nominal
Audible
When any alarm is selected, Audible
alarm will sound if any alarm is present.
When MJR or MNR is selected, audible
alarm will sound if any MJR, or MNR
alarm is present. When minor is
selected, audible alarm will sond if any
minor alarm is present. When major
alarm is selected, audible alarm will
sound if any major alarm is present. If
disabled has been selected, audible
alarm will not sound if any alarm is
present.
Relay Test
Enables or disables the Relay Test.
When Enabled, Relays A- F can be
tested, by setting the relay condition as
active or inactive. Disabled Disabled
Password User Log In / Administrator Log In 1001 / 5001 1001 / 5001 1001 / 5001
* - Requires LVD & proper shunt
** - Requires LVD
Table 6 – NIC Controller Parameters (Profile A01)
H-TRIO-02 (Thermal Relay Input/Output)
The H-TRIO-02 provides four form C alarm contacts and 4 temperature probes on a
convenient rear shelf mounted single card. This option can work with or without the NIC. If
only the H-TRIO-02 is equipped on the shelf without a NIC option, three alarms are available
from the relay connector; DC Fail, AC Fail, and Fuse Alarm. In this configuration the
temperature probes are inactive. When the H-TRIO-02 and the NIC are both installed in a
system, 4 alarms are available on the relay connector and these may be mapped through the
NIC in any configuration. Additionally the temperature probes will be active.
HC Display
For systems that are configured with a DC distribution door, a display function is available.
This option will provide a convenient way to view and/or change set points, alarms, and
thermal compensation. As noted in Table 2, the HC display option is currently available on the
HK shelf family.
Page - 14 - of 19
Line Cord Naming Convention Line Cord Series (L is always first character)
Shelf Connection (L=ring terminals, I=IEC
D=two hole lug, U=Un-Terminated)
Cord Length (feet)
Conductor Size (AWG)
AC Plug Retention (L=Locking, N=Non-locking,
U=Un-terminated)
NEMA AC Plug Type (NEMA code or,
U=Un-terminated)
L D 10 08 – L 650P
Line Cord Examples
Valere Part # Description
LU1008-UU Line Cord, 10', 8 AWG, Un-Terminated to Un-Terminated
LU1010-UU Line Cord, 10’, 10 AWG, Un-Terminated to Un- Terminated
LU1010-L530P Line Cord, 10', 10 AWG, Un-Terminated to NEMA L5-30P, 120
VAC, 30 Amp Locking Plug
LU1010-L630P Line Cord, 10', 10 AWG, Un-Terminated to NEMA L6-30P, 240
VAC, 30 Amp Locking Plug
LI1014-UU Line Cord, 10’, 10 AWG, IEC320-C13 Plug to Un-Terminated
LI1010-N515P Line Cord, 10’, 10 AWG IEC320-C13 Plug to NEMA N515P, 120
VAC, 15 Amp Non Locking Plug
LU2010-UU Line Cord, 20', 10 AWG, Un-Terminated to Un-Terminated
LU2010-L530P Line Cord, 20’, 10 AWG, Un-Terminated to NEMA L530P 120
VAC, 30 Amp Locking Plug
Table 7 – Line Cord Naming Examples
Notes on wire sizes:
LI type cords accept 14awg only wire sizes
LU type cords accept 14awg through 4awg wire sizes
Shelf Connection Description Available Shelf
Family
LI
Line cord with
15A IEC
connector
D, I (individual
feed option)
LU
Line cord with
customer end
Un-terminated
S,D,B (terminal
block option)
Page - 15 - of 19
LI Type
LU Type
NEMA Plugs
Using wxyyz (L650P) above
w – Locking(L)/Non-locking(N)
x - 5 is for 3 wire, low line AC/6 is for 3 wire, high line AC/14 is for 4 wire, high line
yy – Current rating of plug from 15 to 50 amps (see available plugs below)
z – Plug(P)
Non-Locking Plugs
Locking Plugs
Page - 16 - of 19
Alarm Cables
Three standard length (10’, 50’, and 100’) alarm cables are available for use with Compact DC
Power Systems. The functionality of each cable is identical. Since the variability of these
cables is low, part numbers do not have any set convention.
Table 8 – Alarm Cables
* Note: Alarm cables used on systems with form C relay contacts
** Note: Alarm cables used on systems with opto-isolated alarms
Temperature Probes
Thermal
Probe
Ring Terminal (R=1/4” Ring Terminal, P=Paddle Terminal
L=5/16” Ring Terminal)
Length (10’, 20’ Feet)
T P R 10
Temperature probes are available in two styles, ring terminal and paddle, and in two lengths,
10’ and 20’.
Table 9 – Temperature Probes
Valere Part # Description
CA210203104* Alarm Cable – Solid Wire, 10’
CA210203105* Alarm Cable – Solid Wire, 50’
CA210203106* Alarm Cable – Solid Wire, 100’
CA312181178 ** Alarm Cable – Solid Wire, 10’
Valere Part # Description
TPR10 Thermal Probe, ¼” Ring Terminal, 10'
TPR20 Thermal Probe, ¼” Ring Terminal, 20'
TPP10 Thermal Probe, Paddle Terminal, 10'
TPP20 Thermal Probe, Paddle Terminal, 20'
TPL10 Thermal Probe, 5/16” Ring Terminal, 10’
TPL20 Thermal Probe, 5/16” Ring Terminal, 20’
Page - 17 - of 19
Circuit Breaker Naming Convention
Circuit Breaker Series (HB is always first)
Terminal Style (B=Bullet nosed)
Nominal Current (001=1A, 010=10A)
Alarm Type (E=Electro-Mechanical
Trip, M=Mid Trip)
HB B 010 E
Plug in circuit breakers with bullet nosed terminals are available as follows. E trip breakers
have black handles. M trip breakers have white handles.
Valere Part # Description
HBB005E Circuit Breaker, Bullet Style, Single Pole, 5
Amp Electro-Mechanical Trip
HBB010E Circuit Breaker, Bullet Style, Single Pole,10
Amp Electro-Mechanical Trip
HBB020E Circuit Breaker, Bullet Style, Single Pole, 20
Amp Electro-Mechanical Trip
HBB030E Circuit Breaker, Bullet Style, Single Pole, 30
Amp Electro-Mechanical Trip
HBB040E Circuit Breaker, Bullet Style, Single Pole, 40
Amp Electro-Mechanical Trip
HBB050E Circuit Breaker, Bullet Style, Single Pole, 50
Amp Electro-Mechanical Trip
HBB060E Circuit Breaker, Bullet Style, Single Pole, 60
Amp Electro-Mechanical Trip
HBB005M Circuit Breaker, Bullet Style, Single Pole, 5
Amp Mid-Trip
HBB010M Circuit Breaker, Bullet Style, Single Pole, 10
Amp Mid-Trip
HBB020M Circuit Breaker, Bullet Style, Single Pole, 20
Amp Mid-Trip
HBB030M Circuit Breaker, Bullet Style, Single Pole, 30
Amp Mid-Trip
HBB040M Circuit Breaker, Bullet Style, Single Pole, 40
Amp Mid-Trip
HBB050M Circuit Breaker, Bullet Style, Single Pole, 50
Amp Mid-Trip
HBB060M Circuit Breaker, Bullet Style, Single Pole, 60
Amp Mid-Trip
Page - 18 - of 19
Fuse Naming Convention
Fuse Series (GMT)
Nominal Current (GMT format is xx.yy
0100=1A, 0133=1.33A)
(TPS format is xxx, similar to
CBB format)
GMT 0750
Fuse Examples
Valere Part # Description
GMT0100 Fuse, GMT Style, 1 Amp
GMT0200 Fuse, GMT Style, 2 Amp
GMT0500 Fuse, GMT Style, 5 Amp
GMT0750 Fuse, GMT Style, 7.5 Amp
GMT1000 Fuse, GMT Style, 10 Amp
GMT1500 Fuse, GMT Style, 15 Amp
Table 10 – Fuse Naming Examples
Page 19 of 19
How to Order
To order a complete working system, Select part numbers and quantity for the following items.
1. H Series Compact Shelves
• H Series Rectifiers
• NIC Series Controller
• H-TRIO-02
• Line Cords (make sure quantity of line cords matches number of AC shelf feeds)
• Alarm cable (if desired)
• Up to 4 temperature probes (if desired)
2. Fuses (if any)
How to Reach Valere for Assistance
Valere Headquarters Main Number 1-877-Valere1
(Business hours are 8AM to 6PM Central US)
24 Hour Technical Support Hot Line 1-866-240-6614
