Manufacturer Part #
1-770872-0
Mini-Universal MATE-N-LOK 2 Position Single Row Through-Hole Straight Pin Header
Product Specification Section
TE Connectivity 1-770872-0 - Product Specification
Shipping Information:
Item cannot ship to certain countries. See List
Item cannot ship to following countries:
ECCN:
EAR99
PCN Information:
File
Date
Material Change
06/22/2023 Details and Download
General Product Description: Mini UMNL - Header AssemblyDescription of ChangesAdding an additional resin (Nylon) option for this product. Necessary qualification tests as per the Product specification were performed and passed. Reason for Changes:Standardizing our global resins and adding an additional resin option to help avoid global shortages and interruptions in supplyFirst Ship Date of Changed Items (Changed Parts Only): 25-SEP-2023
Part Status:
Active
Active
TE Connectivity 1-770872-0 - Technical Attributes
Attributes Table
No of Positions: | 2 |
Pitch: | 4.14 mm |
Style/Orientation: | Straight Header/Plug |
Termination: | Solder |
Operating Temp Range: | -55°C to +105°C |
Voltage Rating: | 600V |
Current Rating: | 9.5A |
Contact Plating: | Tin |
Material: | Nylon |
No of Rows: | 1 |
Gender: | Male |
Type: | Pin Headers |
Mating Type: | Locking Tab |
Color: | White |
Mounting Method: | Through Hole |
Features & Applications
The 1-770872-0 is a .163" Centerline, 600 V, 9.5 A max Mini-Universal MATE-N-LOK 2 Position Single Row Through-Hole Straight Pin Header
Product Specifications:
- Connector
- Header
- Connector Style = Plug
- Contact Type = Pin
- Through Hole Contact Termination Type
- Applies to Printed Circuit Board
- Number of Positions 2
- Centreline 4.14 mm [0.163 in]
- Nylon Housing Material
- With Mating Retention
View the 1-770872 series of Headers
Pricing Section
Global Stock:
140,103
USA:
8,136
Germany (Online Only):
131,967
Factory Lead Time:
25 Weeks
Quantity
Unit Price
1
$0.775
30
$0.755
125
$0.73
300
$0.715
1,250+
$0.68
Product Variant Information section
Available Packaging
Package Qty:
200 per Bag
Mounting Method:
Through Hole